20
21
ProductHighlights
Tele Haase was founded in 1963 and is Austria’s market leader in developing state-of-the-art monitoring, control and automation technology. We are known for operational excellence in the development and production of control and monitoring components for automation applications in industry and building automation.
TELE PRODUCTS are installed globally in
various control cabinets or control installations.
Thanks to the simple integration into new or
existing systems, the reliable function and
monitoring of electrical values has proven itself
even in critical energy and facility management
applications.
TELE DEVELOPMENTS meet international
quality standards, contribute to the environmental
friendly generation of renewable energies using
water, wind and sun and have long been what is
known as green or clean.
AT TELE HAASE, we see ourselves as a
“company of the future” with the aim of actively
shaping social change towards sustainability in
the long term. We develop technologies that help
industries to become safer, more efficient and sustainable.
Monitoring and controlling for your safety
2
We are the Austrian market leader for timing and monitoring relays. Our relays might be small but they master a huge variety of applications.
a Monitoring devices for physical values such as
current, voltage, temperature, frequency, level,
power factor, active power …
a Provider of high-quality industrial switching relays
and power electronics
a Grid and system protection for renewable energies
a Extensive technical expertise thanks to nearly
60 years of experience
a Global sales network
a Electronic manufacturing services at crisis-proof
location in Vienna, Austria
Over 80 highly qualified employees meet the high demands and wishes
of our customers every day. TELE
Haase produces one hundred percent
of its products in Austria. Our core
areas of expertise are development
and production – including EMS –
at our head office in Vienna. The TELE sales team and more than 60
international trade partners make up
our global sales network and stand by
for your support.
All over the world
TELE at a glance
Made in Austria
3
We have nearly 60 years of experience in the development and production of control and monitoring components and we are happy to share this know-how with our customers.
we are committed to the
highest quality, sustainability
and outstanding customer
service, both in the production
of our own products and
in EMS production. In the
professional implementation
of innovative ideas from
customers we score with
flexibility and reliability.
Who we are
At the Vienna location
How do you benefit from this?p Short development and
realization times
p Proven modular components
p Ability to integrate into the
customer‘s system
p Scalable in price and performance
p In-house development and
production with optimized
batch sizes
4
Our business areasWith solid engineering know-how, TELE develops and produces smart technology for a better world. We try out ideas and break new ground on our way to “the company of the future”.
Automation componentsAccording to our customers’ needs, we develop and produce
technical solutions for a wide variety of controlling and monitoring
tasks, such as timing and monitoring relays, grid and system
protection, power electronics and industrial IoT. TELE products
are being used all over the world in control cabinets, plant and
machinery, renewable energy sector or facility management.
Factory Hub ViennaWith the Factory Hub we offer space for new ideas and concepts of young founders and support startups with our extensive
production know-how in the implementation of prototypes and
small series.
EMSAt TELE Haase you will find our conveniently located Electronic Manufacturing Services (EMS), which can flexibly adapt to your requirements with a personal touch and Austrian quality. We support
you in ideation, electronic development , prototyping to serial
production and delivery.
Organisation PlaygroundTELE implemented a new organization structure in 2012 and invites
people to join our experiences. Based on the idea of “New Work” we
operate without traditional hierarchies and make democratic decisions.
This promotes individual responsibility andagility, and puts us in a
position to offer operational excellence at all levels in the future.
5
Product categoriesOur product range consists of the following high quality products:
Timing relays [page 7]
can make system and machine operation even more efficient. They check the time for you. For example, they switch off wind turbines after a preset time or fertilize grapevines for a defined timespan. Your production is never thrown off its rhythm, which saves money.
Monitoring relays [page 22]
measure and monitor current, voltage, temperature, frequency, level, power
factor and active power. A variety of different enclosures for control technology, industrial systems, machinery and building installations allow for flexible use of relays. The rugged design offers excellent usability and installability.
Power monitors [page 36]
measure variables such as the power factor of a motor or the true power
of a pump or fan. These measurements provide indications and important
information about the state and functioning of machinery and installations,
which reduces maintenance costs, service works and downtime.
Grid and system protection [page 44]
devices monitor the feed-in of energy to the 230/400 V grid. In case of a power failure or disruption by the energy supplier it is vital for small power
plants to be disconnected within a few milliseconds to avoid any danger to
people and equipment.
Complementary products [page 48]
Coupling units and signal converter
Switching relays and sockets
Current transformers
Softstarter, Thyristor control units and braking units
Hour meters and timers
Switching power supplies
6
Product seriesOur large and small quartet: ENYA, VEO, GAMMA and KAPPA – play it safe!
ENYA VEO GAMMA KAPPA
PRODUCT CATEGORY
TIMING & MONITORING RELAYS, COUPLING
UNITS
TIMING & MONITORING
RELAYS
TIMING & MONITORING RELAYS, POWER
MONITORS
TIMING & MONITORING
RELAYS
Dimensions (W × H × D) 17.5 / 35 × 87 × 65 mm 22.5 / 45 × 67 × 76 mm 22.5 / 45 × 90 × 108 mm 38 × 51 × 80 mm
Design installation design compact industrial design industrial design installation design
Labelling area - freely positionable or fixed fixed -
Product standards EN 61812-1EN 60947
EN 61812-1EN 60947
EN 61812-1EN 50178EN 60947
EN 61812-1EN 50178
Energy consumption 0.8 – 1.3 W extra low: 0.35 – 0.6 W 1 – 1.5 W 0.8 – 2 W
Electrical connection screw terminal push-in terminal orscrew terminal screw terminal plug-in housing mounted
on screw terminal socket
Overvoltage category / Rated impulse withstanding voltage
III / 4 kV III / 4/6 kV (protective separation) III / 4/6 kV III / 4 kV
Application field building industrial automation industrial automation building
Base accuracy ≤ 5 % ≤ 2.5 % ≤ 3 % ≤ 5 %
ENYA VEO GAMMA KAPPA
FOR THE ENTIRE PRODUCT RANGE PLEASE VISIT www.tele-online.com/en
7
ENYA VEOa Timing and monitoring relays,
single and multifunction
a Width 22.5 mm and 45 mm, 1 or 2 changeover contacts (CO)
a Low profile
a UL listed, CE conformity marking
a Temperature range -25 to +60 °C
a Recessed potentiometer buttons,
analog indication by means of LED
a 12 to 240 V AC/DC, powered by
measuring circuit
a Installation design (45 mm
standard front dimension)
a Timing and monitoring relays,
single and multifunction
a Width 17.5 mm and 35 mm, 1 or 2 changeover contacts (CO)
a UL listed, CE conformity marking
a Temperature range -25 to +55 °C
a Recessed potentiometer buttons,
analog indication by means of LED
a 12 to 240 V AC/DC, powered by measuring circuit
a Compact industrial design
Product features
5 mm
60 mm
45 m
m
87 m
m
17.5 mm44 mm 76 mm 22.5 mm
67 m
m
Each of our products is characterized by special features:
MORE PRODUCT INFOS www.tele-online.com/en
8
GAMMA KAPPA
22.5 mm
5 mm 103 mm
90 m
m
47 mm22 mm
45 m
m
80 mm
51 m
m
38 mm
a Industrial design
a Timing and monitoring relays, single
and multifunction
a Width 22.5 mm and 45 mm, 1 or 2 changeover contacts (CO)
a UL listed, CE conformity marking
a Temperature range -25 to +55 °C
a Recessed potentiometer buttons,
analog indication by means of LED,
digital indication by means of LCD-
Display
a 12 to 240 V AC/DC, powermodules 12 to 500 V AC; 24 V DC
a Industrial design
(45 mm standard front dimension)
a Timing and monitoring relays, single and
multifunction
a Width 35 mm, 2 changeover contacts (2CO) or 1 changeover and 1 normally
open contact (1CO + 1NO)
a CE conformity marking
a Temperature range -25 to +55 °C
a Recessed potentiometer buttons, analog
indication by means of LED
a 12 to 240 V AC/DC, powered by measuring circuit
MORE PRODUCT INFOS www.tele-online.com/en
9
FUNCTIONS TIMING RELAYS
EWs ON DELAY SINGLE SHOT LEADING EDGE WITH CONTROL CONTACT
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the set
interval t1 begins. After the interval t1 has expired, the output relay R switches into on-position and the set
interval t2 begins. After the interval t2 has expired, the output relay switches into offposition. During the
interval, the control contact can be operated any number of times. A further cycle can only be started when
the cycle run has been completed.
Wa SINGLE SHOT TRAILING EDGE WITH CONTROL INPUT
The supply voltage U must be constantly applied to the device. Closing the control contact S has no influence
on the condition of the output R. When the control contact is opened, the output relay switches into
on-position and the set interval t begins. After the set interval has expired, the ouput relay switches into off-
position. During the interval, the control contact can be operated any number of times. A further cycle can
only be started when the cycle run has been completed.
nWa MAINTAINED SINGLE SHOT TRAILING EDGE
When the supply voltage U is supplied, the output relay R remains into off-position. As soon as the supply
voltage is interrupted the output relay switches into on-position and the set interval t begins. After the set
interval t has expired the output relay switches into off-position. When the supply voltage is reconnected
before the interval t has expired, the unit continues to perform the actual single shot.
nWuWa MAINTAINED SINGLE SHOT LEADING AND TRAILING EDGE
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t
begins. After the interval t has expired the output relay switches into off-position. As soon as the supply
voltage is interrupted the output relay switches into on-position again and the set interval t begins. After the
set interval t has expired the output relay switches into off-position. If the supply voltage is interrupted (nWu)
or reconnected (nWa) before the interval t has expired the unit continues to perform the actual single shot
WsWa SINGLE SHOT LEADING AND SINGLE SHOT TRAILING EDGE WITH CONTROL CONTACT
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the
output relay R switches into on-position and the set interval t1 begins. After the interval t1 has expired, the
output relay R switches into off-position. If the control contact is opened, the output relay again switches into
on-position and the set interval t2 begins. After the interval t2 has expired the output relay switches into off-
position. During the interval, the control contact can be operated any number of times.
Bi FLASHER PULSE FIRST
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t
begins. After the interval t has expired, the output relay R switches into off-position and the set interval t
begins again. The output relay is triggered at a ratio of 1:1 until the supply voltage is interrupted.
Bp FLASHER PAUSE FIRST
When the supply voltage U is applied, the set interval t begins. After the interval t has expired, the output
relay R switches into on-position and the set interval t begins again. After the interval t has expired, the
output relay switches into off-position. The output relay is triggered at a ratio of 1:1 until the supply voltage
is interrupted.
Wt PULSE DETECTION
When the supply voltage U is applied, the set interval t1 begins and the output relay R switches into on-
position. After the interval t1 has expired, the set interval t2 begins. So that the output relay R remains in
on-position, the control contact S must be closed and opened again within the set interval t2. If this does
not happen, the output relay R switches into off-position and all further pulses at the control contact are
ignored. To restart the function the supply voltage must be interrupted and reapplied.
U
LED U/t
R t ttt
U
LED U/t
R t t tt
U
LED U/t
S
R t1 t2 t1 t2
U
R
LED U
t t t t t
U
LED U
R t t
U
LED U/t
S
R tt
U
LED U/t
S
R ∞t t<t <t
U
U/t
S
R
LED
t2t1
10
FUNCTIONS TIMING RELAYS
Wtf PULSE SEQUENCE MONITORING EDGE TRIGGERED
When the supply voltage U is applied the green LED U/t illuminated. When the control contact S is closed
(rising edge) the output relay R switches into on- position (yellow LED illuminated) and the set interval t
begins (green LED U/t flashes). So that the output relay R remains in on-position, the control contact S must
be opened and closed again within the set interval t. if this does not happen, the output relay R switches
into off-position. If a new positive edge on the control input is detected, the interval t begins (green LED U/t
flashes) and the outputs relay R switches into on-position (yellow Led illuminated).
Wto PULSE SEQUENCE MONITORING EDGE TRIGGERED WITH ON STATE
When the supply voltage U is applied the green LED U/t illuminated and if the control input S is on at the same
time the set interval t begins (green LED U/t flashes) and the output relay R switches into on position (yellow Led
illuminated). If there is no rising edge detected on the control input S, then the Relay R switches into off state.
When the control contact S is closed (rising edge) again the output relay R switches into on- position (yellow Led
illuminated) and the set interval t begins (green LED U/t flashes). So that the output relay R remains in on-
position, the control contact S must be opened and closed again within the set interval t. if this doed not happen,
the output relay R switches into off-position. If a new positive edge on the control input is detected, the interval t
begins (green LED U/t flashes) and the output relay R switches into on-position (yellow Led illuminated).
Ii ASYMMETRIC FLASHER PULSE FIRST
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t1
begins. After the interval t1 has expired, the output relay switches into off-position and the set interval
t2 begins. After the interval t2 has expired, the output relay switches into on-position. The output relay is
triggered at the ratio of t1:t2 until the supply voltage is interrupted.
Ip ASYMMETRIC FLASHER PAUSE FIRST
When the supply voltage U is applied, the set interval t1 begins. After the interval t1 has expired, the output
relay R switches into on-position and the set interval t2 begins. After the interval t2 has expired, the output relay
switches into off-position. The output relay is triggered at the ratio of t1:t2 until the supply voltage is interrupted.
TW FUNCTION AUTOMATIC TIMER WITH (TW) OR WITHOUT (T) SWITCH-OFF WARNING
After the pushbutton (control input) has been pressed, the output relay R closes and the set interval t begins.
If the pushbutton is pressed again before the interval has expired, the interval begins again (restart function
complies with EN 60669-2-3). Rapid, multiple pressing of the pushbutton (pumping) adds 2, 3 or more time
intervals to extend the time up to 60 min. Prolonged pressure on the button (>2 s) aborts the interval running
and switches the relay off (energy saving function). In the TW mode the device provides a switch-off warning
(in accordance with DIN 180-158-2) by generating short pulses (flashing) at 30s, 15s and 5s prior to switch-off.
P IMPULSE SWITCH MODE
In this mode, every keypress of the pushbutton (control input) toggles the output relay R (flip-flop). In function P,
the output relay remains in off-position, whenever the supply voltage is applied. In function PN, the output relay
switches into on-position after applying the supply voltage U, if the output relay was in on-position last before
power failure. In both functions the output relay switches into on-position, if a short voltage impulse (<2s) is applied
to the additional control input (central ON). A longer voltage impulse (>2s) opens the output relay (central OFF).
P ( R ) IMPULSE SWITCH MODE WITH OFF DELAY
In this mode, every keypress toggles the output relay R (flip-flop). After the pushbutton (control input) has
been pressed, the output relay closes and the set interval t begins. After the interval has expired the output
relay switches into off-position. If the pushbutton is pressed again before the interval has expired, the
interval will be canceled and the output relay switches into off-position.
LA LOAD ALTERNATOR – PUMP CHANGER
In this mode, every falling edge toggles the output relay R (flip-flop) from L1 to L2 or L2 to L1 whatever
position is defined by the previous status. On Power-Up the relay R stays in off condition until the first falling
edge is detected on S Terminal B1. To ensure a safe and optimal function, please turn both timing controllers
on the front to the most left position (CCW), which equals 50 msec. In this operation mode, a minimum delay/
de-bump time of 50 msec is applied from the falling edge of the control input until relay R is changing its
state. Is a longer delay time as 50 msec is set, a short pulse on the „S“ input resets the times. The timer is
restarted with the next falling edge signal on „S“ input again. If you wish to apply longer delay times, set the
according time selectors to the required values or contact your application engineer.
LED U/t
U
S
R15-16
A1-B1
A1-A2
15-18
t <t t t
U
U/t
R
LED
t1 t2 t1 t2 t1
U
LED U/t
R t1 t2 t1 t2 t1
U
B1
R <ttt t 2t
> 2s < 2s
TW 15s 10s5s
U
B1
R
U
B1
R t<tt
U
U/t
S
R
LED
t<t <t <t
U
U/t
S
R
LED
<t <t <tt t
11
TELE’S DUPLEXER CONTROLS TWO loads simultane-
ously and upgrades the regular alternating function by
an integrated ON and OFF delay feature. The selector
switch allows the user to lock in one sequence while
the relay works with a wide range control voltage of
24 – 240 V AC/DC.
OUR E1ZMLA is often used in special applications
where optimization of load usage is required by bal-
ancing the runtime of two loads. Identical loads are
used for the same task – one or more standby units
are available in case the first load fails. However, an idle load might deteriorate due to lack of use and thereby
lose its safety margin. Alternating relays prevent this
by assuring that multiple loads get equal run time. In
addition, there are situations where a need arises to
have multiple loads on at the same time for additional
capacity if one load cannot keep up with demand.
This alternating functionality “LA” is initiated by a
control switch, such as a float switch, manual switch, timing relay, pressure switch or other isolated contact.
Each time the initiating switch is opened, the output
relay contacts will change state, thus alternating the
two loads. Two LED indicators show the status of the
output relay, control voltage and timing function.
Advantages
p 3in1 Duplex control of two loads p Integrated OFF and ON delay p Load alternator w/ selector switch to lock loads manually p Control voltage 24 – 240 V AC/DCp 8 A@250 VAC SPDT output
p Low profile selector switchp 2 LEDs for relay status, timing and operating voltage indicationp cULus, CE, EAC, RoHsp Rugged design for industrial applicationsp Improved inventory maintenance
E1ZMLA10
TYPE DESIGNATION FUNCTIONALITY DIMENSIONS (W × H × D) ART.NO.
E1ZMLA10 24-240 V AC/DC load alternator (LA), ON (E) and OFF (R) delay 17.5 × 87 × 65 mm 110218
Our 3in1 pump alternating relay offers the highest
performance in the industry’s most compact and
space-saving DIN-Rail enclosure style.
12
ENYA SERIES TIMING RELAYS
MODEL E1ZM10 E1ZMQ10 E1ZMWT10 E1ZMW10 E1ZMLA10
ORDER INFORMATION
PART NO single package 110100 (12 – 240 V)110200 (24 – 240 V) 110202 110217 - 110218
PART NO packaging unit (10 pcs) 110100 A (12 – 240 V)110200 A (24 – 240 V) 110202 A - 110206 A -
FUNCTIONALITY multifunction multifunction multifunction multifunction multifunction
E ON delay • • • • •R OFF delay • • • • •Es ON delay with control contact • •Wu Single shot leading edge, voltage-controlled • • •Ws Single shot leading edge with control contact • • •Wa Single shot trailing edge with control contact • • •Bp Flasher pause first •Wt Pulse repetition analysis • •Wtf Pulse sequence monitoring edge triggered •Wto Pulse sequence monitoring edge triggered with on state •WsWa Single shot leading and trailing edge with control contact
•La Load alternator – pump changer •
POWER SUPPLY CIRCUIT
Supply voltage12 – 240 V AC/DC24 – 240 V AC/DC 24 – 240 V AC/DC 24 – 240 V AC/DC 24 – 240 V AC/DC 24 – 240 V AC/DC
Setting range 48 – 63 Hz
TIME CIRCUITS
Time ranges 7
Setting range 0.05 s – 100 h
INPUT CIRCUIT
Control signal • • • • •OUTPUT CIRCUIT
Number of switching contacts 1 CO contact 1 CO contact 1 CO contact 1 CO contact 1 CO contact
Max. switching capacity 2000 VA (8 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 17.5 × 87 × 65 mm35 × 87 × 65 mm
Certificates CE, cULus, EAC CE, cULus, EAC CE, EAC CE, cULus, EAC CE, cULus, EAC
13
ENYA SERIES TIMING RELAYS
MODEL E3ZI20 E1ZI10 E1ZTP E1ZNT E1ZWI
ORDER INFORMATION
PART NO single package 111101 110101 110301 110500 110310
FUNCTIONALITY emergency light tester ON delay asymmetric flasher asymmetric flasher star-delta
ER ON delay and OFF delay with control contact •EWu ON delay single shot leading edge, voltage-controlled •Ws Single shot leading edge with testkey •EWs ON delay single shot leading edge with control contact •lp Asymmetric flasher pause first •li Asymmetric flasher pulse first •Wt Pulse repetition analysis •WsWa Single shot leading and trailing edge with control contact •FUNCTIONALITY STAIRCASE LIGHTING TIMER
T Automatic timer without switch-off warning •TW Automatic timer with switch-off warning •1 Steady light (ON) •0 Switch-off •P Impulse switch mode without time function (only types with option P) •PN Impulse switch mode power fail latch (only types with option PN) •
POWER SUPPLY CIRCUIT
Supply voltage 12 – 240 V AC/DC 12 – 240 V AC/DC 230 V AC 230 V AC 230 V AC
Frequency range 48 – 63 Hz
TIME CIRCUITS
Time ranges 7 7 1 1 1
Setting range 1 s – 100 h 1 s – 100 h 0,5 – 12 min 10 min – 3 h 6 – 60 min
INPUT CIRCUIT
Control signal • • • integrated test key •OUTPUT CIRCUIT
Number of switching contacts 2 CO contact 1 CO contact 1 CO contact 1 CO contact 1 CO contact
Max. switching capacity 2000 VA (8 A / 250 V AC)
2000 VA (8 A / 250 V AC)
4000 VA (16 A / 250 V AC)
4000 VA (16 A / 250 V AC)
4000 VA (16 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 35 × 87 × 65 mm 17,5 × 87 × 65 mm
Certificates CE, cULus, EAC CE, cULus, EAC CE, EAC CE, EAC CE, EAC
FOR THE ENTIRE PRODUCT RANGE PLEASE VISIT www.tele-online.com/en
14
VEO SERIES TIMING RELAYS
MODEL V2ZM10 V2ZQ10 V2ZI10 V2ZS20 V2ZA10 3MIN V2ZET
ORDER INFORMATION
PART NO Screw terminal 125100 125150 125200 125300 125500125130 (12-240 V AC/DC)125132 (50 ms 230 V AC)125133 (50 ms 110 V AC)
PART NO Push-in terminal 125600 125650 125210 125310 125510 -
PART NO packaging unit (10 pcs) 125100 A 125150 A - - - -
FUNCTIONALITY multifunction 2-time multifunction star-delta multifunction ON delay 2 wire
E ON delay • • •ET ON delay 2 wire connected •A OFF delay without auxiliary voltage •R OFF delay • •Ec Additive ON delay •Es ON delay with control input •Wu Single shot leading edge voltage controlled • •nWu Maintained single shot leading edge
Ws Single shot leading edge with control input •Wa Single shot trailing edge with control input •nWa Maintained single shot trailing edge •nWuWa Maintained single shot leading and trailing edge •Bi Flasher pulse first •Bp Flasher pause first • •Wt Pulse sequence monitoring •Ip Asymmetric flasher pause first •Ii Asymmetric flasher pulse first •S Star-delta start-up •SUPPLY CIRCUIT
Supply voltage 12 – 240 V
AC/DC24 – 240 V
AC/DC 12 – 240 V AC/DC 12 – 240 V AC/DC 24 – 240 V AC/DC
12 – 240 V AC/DC (125130)
230 V AC (125132)110 V AC (125133)
Frequency range 48 – 63 Hz or DC
TIME CIRCUITS
Time ranges 10 10 4 45 (125130)
1 (125132, 125133)
Setting range 0,05 s – 100 h 0,05 s – 100 h 0,05 s – 3 min 0,1 s – 3 min 0,05 s – 1 h (125130)50 ms (125132, 125133)
INPUT CIRCUIT
Control signal • • – – –
OUTPUT CIRCUIT
Number of switching contacts 1 CO contact 1 CO contact 2 NO contact 1 CO contact 1 thyristor
Max. switching capacity 2000 VA (8 A / 250 V AC) 2000 VA (8 A / 250 V AC) 750 VA (3 A / 250 V AC) 2000 VA (8 A / 250 V AC) 125 VA / 250 V AC
DESIGN
Dimensions (W × H × D) 22,5 × 67 × 76 mm
Certificates CE, cULus, EAC (devices with push-in terminal are not cULus listed)
15
MODEL G2ZM20 G2ZMF11 G2ZI20 G2ZIF20 G2ZA20
ORDER INFORMATION
PART NO Screw terminal - 120100 - 120200 120601
PART NO Push-in terminal 120401 120103 120501 120201 120600
FUNCTIONALITY multifunction multifunction multifunction multifunction multifunction
E ON delay • • •A OFF delay without auxiliary voltage •R OFF delay • •ER ON delay and OFF delay with control contact • •Es ON delay with control input • •Wu Single shot leading edge voltage controlled • •EWu ON delay single shot leading edge with control contact • •nWu Maintained single shot leading edge •Ws Single shot leading edge with control input • •EWs ON delay single shot leading edge with control contact • •Wa Single shot trailing edge with control input • •nWa Maintained single shot trailing edge •nWuWa Maintained single shot leading and trailing edge •WsWa Single shot leading and single shot trailing edge with control contact • •Bi Flasher pulse first • •Bp Flasher pause first • •Ip Asymmetric flasher pause first • •Ii Asymmetric flasher pulse first • •POWER SUPPLY CIRCUIT
Supply voltage 12 – 240 V AC/DC24 – 240 V or freely
selectable via power module TR2, SNT2
12 – 240 V AC/DC24 – 240 V or freely
selectable via power module TR2, SNT2
24 – 240 V or freely selectable via power module TR2, SNT2
Frequency range 48 – 63 Hz
TIME CIRCUITS
Time ranges 7 16 7 10 4
Setting range 0,05 s – 100 h 0,05 s – 30 d 0.05 s – 100 h 0,05 s – 10 h 1 s – 10 min
INPUT CIRCUIT
Control signal • • • • -
Remote potentiometer - • - • -
OUTPUT CIRCUIT
Number of switching contacts 2 CO contact1 delayed /
1 instantaneous CO contact
2 CO contact 2 CO contact 2 CO contact
Max. switching capacity 1250 VA (5 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 22.5 × 67 × 76 mm
Certificates CE, cULus, EAC (devices with push-in terminal are not cULus listed)
GAMMA SERIES TIMING RELAYS
FOR THE ENTIRE PRODUCT RANGE PLEASE VISIT www.tele-online.com/en
16
MODEL K3ZM20 K3ZM20P K3ZA20 3MIN K3ZI20 K3ZS20
ORDER INFORMATION
PART NO 135100 135200 135400 135101 135300
FUNCTIONALITY multifunction multifunction 2-times multifunction 2-times multifunction star-delta
E ON delay • • •A OFF delay without auxiliary voltage •R OFF delay • •ER ON delay and OFF delay with control contact •Es ON delay with control input • •Wu Single shot leading edge voltage controlled • •EWu ON delay single shot lead-ing edge with control contact •nWu Maintained single shot leading edge •Ws Single shot leading edge with control input • •EWs ON delay single shot leading edge with control contact •Wa Single shot trailing edge with control input • •nWa Maintained single shot trailing edge •nWuWa Maintained single shot leading and trailing edge •WsWa Single shot leading and single shot trailing edge with control contact
•Bp Flasher pause first • •Ip Asymmetric flasher pause first •Ii Asymmetric flasher pulse first •Wt Pulse sequence monitoring •S Star-delta start-up •SUPPLY CIRCUIT
Supply voltage 12 – 240 V AC/DC 12 – 240 V AC/DC 24 – 240 V AC/DC 12 – 240 V AC/DC 12 – 240 V AC/DC
Frequency range 48 – 63 Hz
TIME CIRCUITS
Time ranges 7 7 4 7 4
Setting range 0,05 s – 100 h 0,05 s – 100 h 0,1 s – 3 min 0,05 s – 100 h 0,05 s – 3 min
INPUT CIRCUIT
Control signal • • (isolated) - • -
OUTPUT CIRCUIT
Number of switching contacts 2 CO contacts
Max. switching capacity 2000 VA (8 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 38 × 51 × 80 mm
Certificates CE, EAC
KAPPA SERIES TIMING RELAYS
17
MODEL K3ZM11 K3ZMF20 K3ZIF20 PF-113BE (R11X) PF-113BE/M (ES12)
ORDER INFORMATION ACCESSORIES FOR KAPPA RELAYS
PART NO 135500 135600 135700 180155 180136
FUNCTIONALITY multifunction multifunction2-times
multifunction sockets
E ON delay • •
11-pole socket for mounting KAPPA relays on DIN-Rail TS 35
R OFF delay • •ER ON delay and OFF delay with control contact •Es ON delay with control contact • •Wu Single shot leading edge, voltage-controlled • •EWu ON delay single shot leading edge, voltage-controlled •Ws Single shot leading edge with control input •EWs ON delay single shot leading edge with control contact •Wa Single shot trailing edge with control input • •WsWa Single shot leading and trailing edge with control contact •Bp Flasher pause first • •Ip Asymmetric flasher pause first •Ii Asymmetric flasher pulse first •Wt Pulse sequence monitoring •
SUPPLY CIRCUIT
Supply voltage DC 24 V depends on selected KAPPA relays
Supply voltage AV 24 V, 110 – 240 V depends on selected KAPPA relays
Frequency range 48 – 63 Hz depends on selected KAPPA relays
TIME CIRCUITS PACKAGING UNIT
Time ranges 16 7 71 or 10 pcs 10 pcs
Setting range 0,05 s – 30 d 0,05 s – 100 h 0,05 s – 100 h
INPUT CIRCUIT
Control signal • • •Remote potentiometer • •OUTPUT CIRCUIT
Number of switching contacts 2 CO contacts 1 CO + 1 NO contact 1 NC + 1 NO contact depends on selected KAPPA relays
Max. switching capacity 2000 VA (8 A / 250 V AC) 2000 VA (8 A / 250 V AC) 2000 VA (8 A / 250 V AC) depends on selected KAPPA relays
DESIGN
Dimensions (W × H × D) 38 × 51 × 80 mm 38 × 61,5 × 26 mm 38 × 75 × 26 mm
Certificates CE, EAC CE, cULus, CSA CE, cULus, CSA
Remote potentiometer can be found on page 47.
KAPPA SERIES TIMING RELAYS / SOCKETS (PF-113BE) R11X AND PF-113BE/M (ES12)
18
TIMING RELAYS
Timing relays for various applications
Fluid level monitoring
Monitoring of a cold store door
V2ZQ10 In pools of a wastewater treatment plant
the use of the timing relay with Function E (switch-
on delay) delays reading of the switch contact
until the next usable measurement, and thereby
prevents “flutter switching”.
G2ZMF11 As soon as the control contact (Y1-Y2) is interrupted by opening the cold store door the
cooling is switched off directly and the set time t starts to run. If the cold store door remains open
for longer than the selected time, the delayed
contact deactivates and an acoustic signal is
triggered. This prevents the door from remaining
open for too long or being improperly closed.
Safe switch-offE1ZM10 24-240 To prevent fire hazard, the stove in a dormitory shared kitchen must
switch off safely after a defined period of time. The switch needs to perform even if the
central pushbutton has been illegally blocked.
please scan QR code to see more timing relay applications
19
FUNCTIONS MONITORING RELAYS
Monitoring Relays Function Overview
O OVER
Max
Min
If the measured value exceeds the adjusted MAX threshold, the output relay switches into off-position. The output relay switches into on-position again, as soon as the measured value falls below the adjusted MIN threshold.
U UNDER
Max
Min
If the measured value falls below the adjusted MIN threshold, the output relay switches into off-position.The output relay switches into on-position again, as soon as the measured value exceeds the adjusted MAX threshold.
W WINDOW
Max
Min
If the measured value falls below the adjusted MIN threshold, the output relay switches into off-position. The output relay switches into on-position again, as soon as the measured value exceeds the adjusted MIN threshold. If the measured value exceeds the adjusted MAX threshold, the output relay switches into off-position. The output relay switches into on-position again, as soon as the measured value falls below the adjusted MAX threshold.
2MIN MINIMUM MONITORING
U
Max
Rel 1
Rel 2
Min
If the measured value falls below the adjusted MAX threshold, the output relay Rel1 switches into off-position. If the measured value falls below the adjusted MIN threshold, the output relay Rel2 switches into off-position. The output relays Rel1 and Rel2 switch into on-position again, as soon as the measured value exceeds the according adjusted threshold (MAX or MIN).
2MAX MAXIMUM MONITORING
U
Max
Rel 1
Rel 2
Min
If the measured value exceeds the adjusted MIN threshold, the output relay Rel2 switches into off-position. If the measured value exceeds the adjusted MAX threshold, the output relay Rel1 switches into off-position. The output relays Rel1 and Rel2 switch into on-position again, as soon as the measured value falls below the according adjusted threshold (MAX or MIN).
MM MINIMUM AND MAXIMUM MONITORING (MIN/MAX)
U
Max
Rel 1
Rel 2
Min
If the measured value falls below the adjusted MIN threshold, the output relay Rel2 switches into off-position. The output relay Rel2 switches into on-position again, as soon as the measured value exceeds the adjusted MIN threshold. If the measured value exceeds the adjusted MAX threshold, the output relay Rel1 switches into off-position. The output relay Rel1 switches into on-position again, as soon as the measured value exceeds the adjusted MIN threshold.
TEMP TEMPERATURE MONITORING
Rel
PTC
3,6kΩ
1,8kΩ
If the supply voltage U is applied and the cumulative resistance of the PTC-circuit is less than 3.6k Ω (standard temperature of the motor), the output relay R switches into on-position. When the cumulative resistance of the PTC-circuit exceeds 3.6k Ω, the output relay switches into off-position. The output relay switches into on-position again after the cumulative resistance falls below 1.6k Ω.
SEQ PHASE SEQUENCE MONITORING
LED U
L1
L2
L3
When all phases are connected in the correct sequence and the measured asymmetry is less than the fixed value, the output relay switches into on-position (yellow LED illuminated). When the phase sequence changes, the output relay switches into off-position (yellow LED not illuminated). It is recommended to connect the neutral wire of the monitoring relay once loads in the system use neutral connection.
20
FUNCTIONS MONITORING RELAYS
PHASE FAILURE MONITORING
LED U
L1
L2
L3
As soon as one of the three phases fails, the output relay R switches into off-position (yellow LED not illumi-nated). For reliable phase loss detection, the asymmetric function should be enabled. It is recommended to connect the neutral wire of the monitoring relay once loads in the system use neutral connection.
PUMP UP
U
Probe E1
Probe E2
Probe E3
Le
ve
l
<t
R Connection of the probe rods E1, E2 and E3. When the air-fluid level falls below the minimum probe E2 the set interval of tripping delay begins. After the expiration of the interval, the output relay R switches into on-position. When the air-fluid level again rises above the maximum probe E1, the set interval of turn-off delay begins. After the expiration of the interval the output relay switches into off-position.
PUMP DOWN
U
Probe E1
Probe E2
Probe E3
Le
ve
l
R Connection of the probe rods E1, E2 and E3. When the maximum probe E1 gets moistened the set interval of tripping delay begins. After the expiration of the interval the output relay R switches into on-position. When the airfluid level falls below the minimum probe E2, the set interval of turn-off delay begins. After the expiration of the interval, the output relay switches into off-position.
LATCH (ERROR MEMORY)
Max
Min
Reset
U
If the device detects a fault, the output relay only switches on again when the fault latch has been reset. The fault latch can be reset by means of an internal or external reset button or by interrupting the supply voltage.
ASYM ASYMMETRY MONITORING
Asym.
L1 L2 L3
If the asymmetry of the phase-to-phase voltages exceeds the value set at the ASYM-regulator, the output relay switches into off-position. If the neutral wire is connected to the device, the asymmetry of the phase voltages referred to the neutral wire (Y-voltage) is monitored also. In that case both values of the asymmetry are evaluated and if one of the values exceeds the value set at the ASYM-regulator, the output relay switches into off-position.
ON DELAY
Max
Min
ON-DelayON-Delay
The output relay switches on if the monitored value is within the selected range during the defined time period.
DELAY
Max
Min
Delay Delay
If the monitored value leaves the selected range, the output relay only switches into off-position following expiry of the trip delay.
START START-UP SUPPRESSION
Max
Min
Start
The output relay switches on when the supply voltage is applied. Changes to measured variables have no impact on the setting of the output relay during start up suppression.
I = 0 RECOGNITION OF DISCONNECTED CONSUMERS
I
I=0
When the current flow between i and k is interrupted the output relay switches into off-position.When the current flow is restored, the measuring cycle is restarted with the set interval of the start-up supression.
21
Depending on the function selected, the V4LM
controls the pumping in and pumping out as well
as the running dry and overflow alarm. The device is utilized wherever observing a defined fill level represents an important criterion for the function,
efficiency and safety. It protects machines and systems from leakage damage, fluid loss as well as running dry or overflow.
FUNCTION
Unlike float switches, the TELE V4LM has no moving parts and thus has a long durability. In contrast to
ultrasonic and radar measurements, the device is
resistant to contamination, dust, foam and mist in the
containers. With extremely low probe voltage, small
measuring currents and a large sensitivity window
from 0.25 to 500 kOhm, the fill level measurement is suitable for feed applications and does not endanger
animals. The selected measuring frequency of 18.3 Hz enables an extremely robust measurement without
interference (no harmonics to mains frequency
50 or 60 Hz). In addition, the alternating current measurement prevents the build-up of oxyhydrogen
gas as well as electrolytic disintegration of the probes,
which can occur with comparable devices with direct
current measurement.
Advantages
p No moving parts (compared to a float switch)p Robust against soil, dust, foam, mist in the containers
(contrary to ultrasound and radar measurements)
p Extremely low probe voltage and measuring currents,
therefore also suitable for animal feeding application
p Large sensitivity window (0.25 to 500 kOhm)p Robust measurement without interference by selecting
the measuring frequency of 18.3 Hz (no harmonic to mains frequency 50 or 60 Hz), AC measurement also avoids oxyhydro-
gen gas formation and electrolytic decomposition of the probe.
VEO-V4LM4S30TELE’s new V4LM4S30 24-240 V AC/DCV electrode relay for level monitoring in conductive fluids combines 10 different
functions in one very compact device. It monitors the level
of a fluid via probes, which are directly immersed.
22
FUNCTIONS SEAL LEAKAGE MONITOR
FUNCTION 1
PUMP UP WITH MIN-/MAX- ALARM
(2uA) 1 container, 4 probes, 1 pump FUNCTION 2
PUMP DOWN WITH MIN-/MAX- ALARM
(2dA) 1 container, 4 probes, 1 pump
Level control between probes E2 and E3 by pumping up. The probes E1 and E4 serve as overflow – respectively as dry running alarm and may be used
to control alarm devices, valves or additional pumps.
Level control between probes E2 and E3 by pumping down. The probes E1 and E4 serve as overflow – respectively as dry running alarm and may be used to control
alarm devices, valves or additional pumps.
FUNCTION 3
PUMP UP AND DOWN (bidirectional)
WITH MINIMUM ALARM (3b-) 1 container, 4 probes, 2 pumps FUNCTION 4
PUMP UP AND DOWN (bidirectional)
WITH MAXIMUM ALARM (3b+) 1 container, 4 probes, 2 pumps
The level is controlled by pumping in and out around the level of probe E3.
One example of the minimum alarm via probe E4 is used in dry-running
warnings.
The level is maintained by pumping in and out around the level of probe E2. A
maximum alarm via probe E1 warns of liquid overflow. Functions 3 and 4 can be changed during full operation.
FUNCTION 5
TWO INDEPENDENT CONTAINERS – PUMP UP (2u2)
1-2 container, 1-2 probes each, 1 pump each FUNCTION 6
TWO INDEPENDENT CONTAINERS – PUMP DOWN (2d2)
1-2 container, 1-2 probes each, 1pump each
Pump up between probes E1-E2respectively E3-E4 (alternatively control
by one probe at a time). This feature allows level control in two separate containers with only one device. It is also possible to control cascades.
Pump down between probes E1-E2 respectively E3-E4 (alternatively control by
one probe at a time). This feature allows level control in two separate containers with only one device. It is also possible to control cascades.
FUNCTION 7
PUMP UP WITH INTEGRATED PUMP CHANGE
(2uc) 1 container, 2 probes, 2 pumps FUNCTION 8
PUMP DOWN WITH INTEGRATED PUMP CHANGE
(2dc) 1 container, 2 probes, 2 pumps
Pump up between control probes E1 and E2. The V4LM acts as an intelligent pump changer (for even use) with pump monitoring (feedback inputs E3 & E4). If a pump fails, the remaining pump is permanently prioritized and an alarm is issued, for maximum availability and uninterrupted operation through full
redundancy.
Pump down between control probes E1 and E2. The V4LM acts as an intelligent pump changer (for even use) with pump monitoring (feedback inputs E3 & E4). If a pump fails, the remaining pump is permanently prioritized and an alarm is issued, for maximum availability and uninterrupted operation through full
redundancy.
FUNCTION 9
WELL CONTROL (3w-) WITH WELL AND DRY ALARM
1 well, 1 high tank, 3 probes, 1 pump FUNCTION 10
CODE OUTPUT FOR PLC CONNECTION
(4ce) 1 container, 4 probes
The function serves to ensure the water supply by means of a high tank and a well (pump up into the high tank from the well). Alarm functions: well alarm and dry alarm (high tank and well without water). The pump is protected against dry running in case liquid levels of a well (or feeding container) fall below a minimum value.
The 3 output relays are used to output the probe states by means of coding. Up to 4 level levels can be evaluated for one
container. By connecting to an external controller, individual application conditions can be taken into account. Simple connection without external control unit can also protect up to four containers, with one probe each against overflow or dry running, and trigger a collective alarm.
FOR TECHNICAL SPECIFICATIONS please refer to page 29
23
Operate pumps fail-safeTELE pump alternators save life cycle
costs and prevent production downtime.
Pump systems cause around a quarter of the world’s
electricity consumption. For this reason, consequent
analysis of operating data and long-term optimization
of the pump design offer enormous energy-saving potential. In addition, malfunctions that are not
recognized in time cause around 70 percent of a
pump’s life cycle costs, often leading to production
downtimes and resulting in high costs.
PUMP MONITORING
This risk can be eliminated by appropriate monitoring,
by measuring performance drops at an early stage and
triggering an alarm or control measures. TELE has a
whole series of devices, such as E1ZMLA, G2 ASMA20 or V4LMS30 for this application. The devices recognize
all unfavorable operating conditions of a pump, such
as wear, but also blockage, wrong running, filter contamination, hot running, cavitation, temperature
and dry running. In addition, some devices feature
an integrated temperature monitor, which detects
increased motor temperature, for example due to
phase failure, frequent start-ups or blockages. Error
states are reported immediately and thanks to timely
maintenance, consequential damage to the system and
thus expensive production downtimes can be avoided.
PUMP CONTROL FOR
PARALLEL OPERATION
For direct pump control, soft starters for pump
start/stop as well as pump changers for alternately
controlling pumps are used. In conveyor systems,
pumps are usually designed to be redundant in order
to maintain the system function in the event of machine
damage and to cover short-term delivery peaks through
parallel operation. Here the TELE pump alternator
G2 ASMA20 guarantees the alternating operation of both pumps, so that the reserve pump remains
functional and does not fail in case of need.
Advantages
p Improve system reliability
p Increase pump efficiencyp Optimize maintenance cycles
p Prevent failure and reduction of downtimes
p Optimized utilization in parallel operation
24
MODEL E1IM10 AACL10230 V AC
E3IM10 AL20 230 V AC
E3IF500MAAC20 E3YF400 VE20 0.85
E3YF400 VT02 0.85
ORDER INFORMATION
PART NO single package 1340200 1341200 1341201 1341404 1341402
FUNCTIONALITY1-phase ac
current monitoring1--phase AC/DC
current monitoring1-phase AC
current monitoring3-phase AC
voltage monitoring3-phase AC
voltage monitoring
O ... Over • •U ... Under • • • • •W ... Window • •Test function •SWITCHING THRESHOLD
Maximum 10 – 100 % of IN
10 – 100 % of IN
- - -
Minimum 5 – 95 % of IN
5 – 95 % of IN
50 – 500mA fixed, 195.5 V (0.85) fixed, 195.5 V (0.85)
Asymmetry - - - - -
MEASURING CIRCUIT
Measuring variablecurrent
AC sinuscurrent AC/DC
AC sinuscurrent
AC sinus3(N)~
AC sinus3(N)~
AC sinus
Measuring input 10 A AC 100mA / 1 A / 10 A AC/DC 500mA AC* UN= 400/230 V AC U
N= 400/230 V AC
SUPPLY CIRCUIT
Supply voltage230V AC
-15% to +15% 230 V AC 230 V AC= measuring voltage 3(N)~ 400/230 V AC
-30 % to +30 %
= measuring voltage 3(N)~ 400/230 V AC
-30 % to +30 %
Frequency range 48 – 63 Hz
TIME CIRCUITS
Start-up surpression time
(START)- 0 – 10 s 0 – 20 min - -
Tripping delay (DELAY) 0,1 – 10 s 0,1 – 10 s 0 – 20 min - fixed, approx. 200 ms
ON delay - - - fixed, 1 min -
OUTPUT CIRCUIT
Number of switching contacts 1 CO contact 2 CO contact 2 CO contact 2 CO contact 2 CO contact
Max. switching capacity 1250 VA (5 A / 250 V AC) 1250 VA (5 A / 250 V AC) 1250 VA (5 A / 250 V AC) 1250 VA (5 A / 250 V AC) 1250 VA (5 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 35 × 87 × 65 mm
Certificates CE, cULus, EAC CE, EAC CE, EAC CE, cULus, EAC
* For currents greater than 5 A, matching current transformers are available as accessories and can be found on page 49.
ENYA SERIES MONITORING RELAYS
25
MODEL E1PF400 VSY01 E1PF400 VS01 E1PF480Y/277 VSY01 E1YF400 V01 E3YF400 V02
ORDER INFORMATION
PART NO single package 1340300 - 1340306 1340402 (0.85)1340410 (0.70) 1341401
PART NO packaging unit (10 pcs) 1340300 A 1340301 A - 1340402 A (0.85) -
FUNCTIONALITY 3-phase AC voltage monitoring
U ... Under • •W ... Window
SEQ ... Phase sequence • • •Phase failure • • •ASYM ... Asymmetry • •SWITCHING THRESHOLD
Minimum - - -fixed, 195.5 V (0.85)fixed, 161 V (0.70) fixed, 195.5 V
Asymmetry 5 – 25 %, OFF 5 – 25 %, OFF 5 – 25 %, OFF - -
MEASURING CIRCUIT
Measuring variable3(N)~
AC sinus3(N)~
AC sinus3~
AC sinus3(N)~
AC sinus3(N)~
AC sinus
Measuring input UN= 400/230 V AC U
N= 400/230 V AC U
N= 208/120 V
to 480/277 V AC UN= 400/230 V AC U
N= 400/230 V AC
SUPPLY CIRCUIT
Supply voltage= measuring voltage3(N)~ 400/230 V AC
-30 % to +30 %
= measuring voltage3(N)~ 400/230 V AC
-30 % to +30 %
= measuring voltage3~ 208/120 V to
480/277 V AC-10 % to +10 %
= measuring voltage3(N)~ 400/230 V AC
-30 % to +10 %
= measuring voltage3(N)~ 400/230 V AC
-30 % to +30 %
Frequency range 48 – 63 Hz
TIME CIRCUITS
Tripping delay (delay fixed, approx. 100 ms fixed, approx. 100 ms fixed, approx. 100 ms fixed, approx. 200 ms fixed, approx. 200 ms
OUTPUT CIRCUIT
Number of switch contacts 1 CO contact 1 CO contact 1 CO contact 1 CO contact 2 CO contacts
Max. switching capacity 1250 VA (5 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 17.5 × 87 × 65 mm 17.5 × 87 × 65 mm 17.5 × 87 × 65 mm 17.5 × 87 × 65 mm 35 × 87 × 65 mm
Certificates CE, EAC CE, EAC CE, cULus, EAC CE, EAC CE, cULus, EAC
ENYA SERIES MONITORING RELAYS
26
MODEL E1YM400 VS10 E1YM480/277 VS10 E3YM230 VS20 E1UM230 V01 E3LM10 230 VAC
ORDER INFORMATION
PART NO single package 1340405 1340409 1341406 1340101 1341500
FUNCTIONALITY3- and 1-phase AC voltage monitoring
3-phase AC voltage monitoring
3- and 1-phase AC voltage monitoring
1-phase AC/DC voltage monitoring
level monitoring of conductive liquids
U ... Under • • • •W ... Window • • • •SEQ ... Phase sequence • • •Phase failure •Pump up •Pump down •SWITCHING THRESHOLD
Maximum 80 – 130 % of UN
75 – 110 % of UN
80 – 130 % of UN
80 – 120 % of UN
-
Minimum 70 – 120 % of UN
65 – 100 % of UN
70 – 120 % of UN
75 – 115 % of UN
-
Asymmetry 5 – 25 %, OFF - - - -
MEASURING CIRCUIT
Measuring variable3(N)~
AC sinus3~
AC sinus3(N)~
AC sinusvoltage AC/DC
AC sinusliquid level via
conductive probes
Measuring input UN= 400/230 V AC U
N= 480/277 V AC U
N=230/132 V AC 24 V AC/DC; 230 V AC 0.25 – 100k Ω
SUPPLY CIRCUIT
Supply voltage= measuring voltage3(N)~ 400/230 V AC
-30 % to +30 %
= measuring voltage3~ 480/277 V AC-35 % to +10 %
= measuring voltage3(N)~ 400/230 V AC
-30 % to +30 %
= measuring voltage24 V AC/DC; 230 V AC
-25 % to +20 %
230 V AC-15 % to +10 %
Frequency range 48 – 63 Hz 48 – 63 Hz 48 – 63 Hz 48 – 63 Hz or DC 48 – 63 Hz
TIME CIRCUITS
Tripping delay (delay) 0.1 – 10 s 0.1 – 10 s 0 – 30 s - 0.5 – 10 s
OFF delay - - - - 0.5 – 10 s
OUTPUT CIRCUIT
Number of switch contacts 1 CO contact 1 CO contact 2 CO contacts 1 CO contact 1 CO contact
Max. switching capacity 1250 VA (5 A / 250 V AC)
DESIGN
Dimensions (W x H x D) 17.5 × 87 × 65 mm 17.5 × 87 × 65 mm 35 × 87 × 65 mm 17.5 × 87 × 65 mm 35 × 87 × 65 mm
Certificates CE, EAC CE, cULus, EAC CE, EAC CE, cULus, EAC CE, cULus, EAC
ENYA SERIES MONITORING RELAYS
27
MODEL V2PF480Y/277 VSY01 V2PM400Y/230 VS10 V2UM230 V10 V2UF230 V10 V4P-F480Y/277 VSYTK02
ORDER INFORMATION
PART NO screw terminal 2100000 2100500 2100300 2100600 2104200
PART NO push-in terminal 2100010 2100510 2100310 - 2104210
PART NO packaging unit (10 pcs) 2100000 A - - - -
FUNCTIONALITY3-phase AC
voltage monitoring3-phase AC
voltage monitoring1-phase AC/DC
voltage monitoring1-phase
voltage drop detector 3-phase AC
voltage monitoring
U ... Under • • •W ... Window • •SEQ ... Phase sequence • • •Phase failure • • •ASYM ... Asymmetry • •Voltage interruptions (fast detection) •Temperature monitoring (PTC) •
SWITCHING THRESHOLD
Maximum - 75 – 130 % of UN
80 – 115 % of UN
- -
Minimum - 70 – 125 % of UN
75 – 110 % of UN
165 V AC -
Asymmetry 5 – 25 %, OFF - - - 5 – 25 %, OFF
MEASURING CIRCUIT
Measuring variable3~
AC sinus3~
AC sinusvoltage AC/DC
AC sinus voltage AC temperature, voltage 3~ AC sinus
Measuring inputU
N= 208/120 V
to 480/277 V AC UN= 400/230 V AC 24 V AC/DC; 230 V AC U
N= 180 – 230 V AC U
N= 208/120 V
to 480/277 V AC
SUPPLY CIRCUIT
Supply voltage
= measuring voltage3~ 208/120 V
to 480/277 V AC-10 % to +10 %
= measuring voltage3(N)~ 400/230 V AC
-35 % to +35 %
= measuring voltage24 V AC/DC; 230 V AC24 V: -30 % to +30 %
230 V: -30 % to +20 %
= measuring voltage230 V AC
= measuring voltage3~ 208/120 V
to 480/277 V AC-10 % to +10 %
Frequency range 48 – 63 Hz 16.6 – 400 Hz 16.6 – 400 Hz or DC 48 – 63 Hz 48 – 63 Hz
TIME CIRCUITS
ON delay approx. 400 ms approx. 200 ms approx. 300 ms 0.5 – 10 s approx. 500 ms
Tripping delay (delay) < 250 ms 0.1 – 10 s 0.1 – 10 s - approx. 250 ms
Response time short voltage interruptions
- - - 10 – 40 ms -
OUTPUT CIRCUIT
Number of switch contacts 1 CO contact 1 CO contact 1 CO contact 1 CO contact 2 CO contacts
Max. switching capacity 2000 VA (8 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 22.5 × 67 × 76 mm 22.5 × 67 × 76 mm 22.5 × 67 × 76 mm 22.5 × 67 × 76 mm 45 × 67 × 76 mm
Certificates CE, cULus, EAC CE, cULus, EAC CE, cULus, EAC CE, EAC CE, cULus, EAC
Devices with Push-in terminal are not cULus listed.
VEO SERIES MONITORING RELAYS
28
MODEL V2TF01 V2IM10 AL10 V4IM100 AL20V4IM35 AL20
V4IA100 A V4LM4S30
ORDER INFORMATION
PART NO screw terminal 2100100 2100400 2104401(100 A)2104402 (35 A) 2104420 2104500
PART NO push-in terminal 2100110 2100410 2104410 (100 A) - -
FUNCTIONALITY
O ... Over • •
10 functions selectable via rotary switch – for functionoverview pls. refer
to page 25
U ... Under • •W ... Window • •2MAX …2 Maximum •MM … Min. and max. •+LATCH ... Error memory •Temperature monitoring (PTC) •Short circuit monitoring (PTC) •SWITCHING THRESHOLD
Maximum ≥ 3.6k Ω (switch-off resistance) 10 – 100 % of I
N10 – 100 % of I
N-
sensitivity: 10 k Ω – 500k ΩVsense: 20, 40, 60, 80, 100 %
Minimum ≤ 1.6k Ω
(switch-on resistance) 5 – 95 % of IN
5 – 95 % of IN
-sensitivity: 250 Ω – 12.5k Ω
Vsense: 20, 40, 60, 80, 100 %
Zero...Zero point - - -0 %, 25 %, 50 % and 75 % of
nominal value-
Zero Fine…Fine setting zero point - - - 0 – 25 % of nominal value -
Span…Measuring span - - -25 %, 50 %, 75 % and 100 %
of nominal value-
MEASURING CIRCUIT
Measuring variable temperaturecurrent AC/DC
AC sinuscurrent AC/DC
AC sinuscurrent AC/DC
AC sinusliquid level with conductive
probes (type SK1, SK5)
Measuring input - 10 A AC/DC
V4IM100 AL20:100 A AC/DC built-in current transformer V4IM35 AL20: 35 A AC/DC built-in current
transformer
100 A AC/DC built-in current transformer
low (L): 250 Ω – 12.5k Ωhigh (H): 10k Ω – 500k Ω
SUPPLY CIRCUIT
Supply voltage24 – 240 V AC/DC
-15 % to +10 %
AC: 110 – 240 VDC: 24 – 240 V
AC: -15 % to +15 %DC: -30 % to +30 %
24 – 240 V AC/DCAC: -15 % to +10 %DC: -30 % to +30 %
AC: 48-240 VDC: 24-240 V
AC: -10 % to +10 %DC: -15 % to +20 %
24-240 V AC/DC AC: -10 % to +10 %DC: -25 % to +25 %
Frequency range 16.6 – 400 Ω or DC
TIME CIRCUITS
ON delay approx. 50 ms approx. 300 ms approx. 300 ms - -
Start-up surpression time (start) - - 0 – 10 s - -
Tripping delay (delay) - 0.1 – 10 s 0.1 – 10 s - -
Delay (measuring filter) - - - - 1-10 s
OUTPUT CIRCUIT
Analog output - - -
0 ... 20 mA / 4 ... 20 mA10 mA ±10 mA / 12 mA
±8 mA(burden: max. 300 Ω)
0 ... 10 V5 V ±5 V
(burden: max. 1,5k Ω)
-
Number of switch contacts 1 NO contact 1 CO contact - - 3 NO contacts
Max. switching capacity 2000 VA (8 A/ 250 V AC) - 1250 VA (5 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 22.5 × 67 × 76 mm 22.5 × 67 × 76 mm 45 × 67 × 76 mm 45 × 67 × 76 mm 45 × 67 × 76 mm
Certificates CE, cULus, EAC CE, EAC CE, cULus, EAC
Devices with Push-in terminal are not cULus listed.
VEO SERIES MONITORING RELAYS
29
MODEL G2PF400 VS02 G2PM400 VSY20 G2TF02 G2TFKN02 G2LM20
ORDER INFORMATION
PART NO 2 CO contacts 2390000 23905042390505 (24-240 V AC/DC)
23901002390104 (230 V AC)
2390111 (24-240 V AC/DC)
23901012390110 (24-240 V AC/DC)
2390201 (24 V AC)2390202 (110 V AC)2390200 (230 V AC)
FUNCTIONALITY3-phase AC
voltage monitoring3-phase AC
voltage monitoringtemperature
monitoring (PTC)temperature
monitoring (PTC)level monitoring of conductive liquids
U ... Under •W ... Window •SEQ ... Phase sequence •Phase failure • •ASYM ... Asymmetry • •Temperature monitoring (PTC) • •Short circuit monitoring (PTC) •Zero-voltage latch (PTC) •Test function (PTC) • •Pump up •Pump down •SWITCHING THRESHOLD
Maximum - -20 to +30 % of UN
≥ 3.6k Ω (switch-off resistance)
≥ 3.6k Ω (switch-off resistance) -
Minimum - -30 to +20 % of UN
≤ 1.6k Ω (switch-on resistance)
≤ 1.6k Ω (switch-on resistance) -
Asymmetry fixed, typ. 30 % 5 – 25 %, OFF - - -
MEASURING CIRCUIT
Measuring variable3(N)~
AC sinus3(N)~
AC sinus temperature temperatureliquid level via
conductive probes
Measuring input UN= 400/230 V AC 3(N)~ 400/230 V - - 0.25 – 100k Ω
SUPPLY CIRCUIT
Supply voltage= measuring voltage3(N)~ 342 – 457 V AC
24 – 240 V AC/DC or selectable via
power modules TR2, SNT2*
24 – 240 V AC/DC;230 V fixed
or selectable via power modules TR2, SNT2*
24 – 240 V AC/DC or selectable via
power modules TR2, SNT2*
24 V AC110 V AC230 V AC
TIME CIRCUITS
Start-up surpression time (START) fixed, max. 500 ms - - - -
Tripping delay (delay) fixed, max. 350 ms 0.1 – 10 s - - 0.5 – 10 s
OFF delay - - - - 0.5 – 10 s
OUTPUT CIRCUIT
Number of switch contacts 2 CO contacts 1 or 2 CO contacts 1 or 2 CO contacts 2 CO contacts 2 CO contacts
Max. switching capacity 1250 VA (5 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 22.5 × 90 × 108 mm
Certificates CE, cULus, EAC
* Please refer to the chapter accessories for detailed information and ordering data of power modules TR2 and SNT2.
GAMMA SERIES MONITORING RELAYS
30
MODEL G2PU690 VS20 G2UM300 VL20 G2IM5 AL20 G2IM10 AL20 G2FW400 VL20
ORDER INFORMATION
PART NO 2 CO contacts 2390507 23903032390304 (24-240 V AC/DC)
23904052390411 (24-240 V AC/DC)
23904062390410 (24-240 V AC/DC) 2390900
FUNCTIONALITY3-phase voltage
monitoring1-phase AC/DC
voltage monitoring1-phase AC/DC
current monitoring1-phase AC/DC
current monitoringfrequency monitoring
O ... Over • • •U ... Under • • • •W ... Window • • • •SEQ ... Phase sequence •Phase failure •ASYM ... Asymmetry •+LATCH ... Error memory • • • •SWITCHING THRESHOLD
Maximum - 10 – 100 % of UN
10 – 100 % of IN
10 – 100 % of IN
FN = 50 Ω: 49 – 60 Ω
FN = 60 Ω: 59 – 70 Ω
Minimum 180 – 690 V 5 – 95 % of UN
5 – 95 % of IN
5 – 95 % of IN
FN = 50 Ω: 40 – 51Hz
FN = 60 Ω: 50 – 61Hz
Asymmetry fixed, 25 % - - - -
MEASURING CIRCUIT
Measuring variable3~
AC sinusvoltage AC/DC
AC sinuscurrent AC/DC
AC sinuscurrent AC/DC
AC sinus frequency 1-phase
Measuring input UN= 208 – 690 V 30 / 60 / 300 V AC/DC 20mA / 1 A / 5 A AC/DC * 100mA / 1 A / 10 A AC/DC 110 – 400 V AC
SUPPLY CIRCUIT
Supply voltage= measuring voltage
3~ 177 V to 794 V
24 – 240 V AC/DC or selectable via
power modules TR2, SNT2**
24 – 240 V AC/DC or selectable via
power modules TR2, SNT2**
24 – 240 V AC/DC or selectable via
power modules TR2, SNT2**
24 – 240 V AC/DC
TIME CIRCUITS
ON delay - - - - 0 – 10 s
Start-up surpression time (start) - 0 – 10 s 0 – 10 s 0 – 10 s -
Tripping delay (delay) 0.1 – 10 s 0.1 – 10 s 0.1 – 10 s 0.1 – 10 s 0.1 – 10 s
OUTPUT CIRCUIT
Number of switch contacts 2 CO contacts 2 CO contacts 1 or 2 CO contacts 1 or 2 CO contacts 2 CO contacts
Max. switching capacity 1250 VA (5 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 22.5 × 90 × 108 mm
Certificates CE, cULus, EAC CE, cULus, EAC CE, cULus, EAC CE, cULus, EAC CE, EAC
* For currents greater than 5 A, matching current transformers are available as accessories and can be found on page 49. For power modules TR2 and SNT2 pls. s. page 46.
GAMMA SERIES MONITORING RELAYS
31
KAPPA SERIES TIME DELAY RELAYS
MODEL K3PF400 VSY02 K3YM400 VSY20 K3IM1 AACL20K3IM5 AACL20
K3UM230 VAC02 K3UM24 VDC02
ORDER INFORMATION
PART NO 1380301 1380402 1380203 (1 A)1380202 (5 A) 1380107 1380106
FUNCTIONALITY3-phase AC
voltage monitoring3- and 1-phase AC voltage monitoring
1-phase AC current monitoring
1-phase AC voltage monitoring
1-phase AC voltage monitoring
O ... Over •U ... Under • • • •W ... Window • • • •SEQ ... Phase sequence • •Phase failure •ASYM ... Asymmetry • •+LATCH ... Error memory •SWITCHING THRESHOLD
Maximum - 80 – 130 % of UN
10 – 100 % of IN
80 – 120 % of UN
80 – 130 % of UN
Minimum - 70 – 120 % of UN
5 – 95 % of IN
70 – 110 % of UN
75 – 125 % of UN
Asymmetry 5 – 30 %, OFF 5 – 30 %, OFF - - -
MEASURING CIRCUIT
Measuring variable3(N)~
AC sinus3(N)~
AC sinuscurrent
AC sinusvoltage ACAC sinus voltage AC
Measuring input UN= 400/230 V AC U
N= 400/230 V AC 1 A AC or 5 A AC* U
N= 230 V AC U
N= 24 V DC
SUPPLY CIRCUIT
Supply voltage= measuring voltage3(N)~ 400/230 V AC
-30 % to +30 %
= measuring voltage3(N)~ 400/230 V AC
-30 % to +30 %
230 V AC-15 % to +10 %
= measuring voltage3(N)~ 400/230 V AC
-30 % to +20 %
= measuring voltage24 V DC
-25 % to +30 %
Frequency range 48 – 63 Hz 48 – 63 Hz 48 – 63 Hz 48 – 63 Hz -
TIME CIRCUITS
Start-up surpression time (start) - - 0 – 10 s - -
Tripping delay (delay) fixed, approx. 100 ms 0.1 – 10 s 0.1 – 10 s - -
OUTPUT CIRCUIT
Number of switching contacts 2 CO contacts
Max. switching capacity 1250 VA (5 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 38 × 51 × 80 mm
Certificates CE, EAC
* For currents greater than 5 A, matching current transformers are available as accessories and can be found on page 49.
32
MONITORING RELAYS
Monitoring relays have a wide range of uses
No flooding in the underground car parkTELE LEVEL MONITOR V4LM continuously
controls a potential increase of the water level in
the garage facilities. Once the connected sensors
come into contact with ingressing water, the relay
immediately activates pumps to drain the liquid
and sends acoustic and optical warning signals.
Fountain fill levelWITH THE TELE E3LM10, the fill level of the fountain is monitored with three sensors. With the
water level too low, the current flow between the sensors is interrupted and the monitoring relay
activates the pump. To prevent overflowing, the pump switches off when the third sensor comes into contact with the water.
V-belt monitoringTHE POWER FACTOR METER G2FW
quickly recognizes whether a V-belt has broken
or if it has become loose. A tripping delay
ensures that no fault messages or acoustic or
optical warning signals are sent to the control
system in the event of small deviations.
please scan QR code to see more monitoring relay applications
33
cos phi
Underload Nominal load Overload
I
P
cos
I
phi
P
Load
co
s p
hi /
P /
I
TELE power monitoring systems offer significant advantages, particularly in situations in which
monitoring tasks are usually carried out by sensors:
Benefits at a glancep No problems due to contamination or
measurement value drift of the sensors
p No maintenance and cleaning costs
p Easy to use, even in charged air or
aggressive media
p Savings in terms of cabling
p No use of explosion-proof barriers necessary
p Reduction of error source
p Easy retrofitting
Power Monitors
34
CURRENT MONITORING RELAYS
Pure current measurements in the supply to motors
can only be used in an extremely restricted capacity to
monitor loads. This is due to three essential factors:
01 In alternating current circuits, the measured
current is apparent current. This total current
comprises the sum of reactive and active current com-
ponents. However, only the active current is relevant
for the generation of mechanical power. The reactive
current merely causes losses and does not contribute
to the shaft power delivered.
02 In an underload range the current does not reduce
in a linear manner with the load but instead remains
relatively high due to the necessary magnetisation
current. Therefore, no relevant correlation exists
between current and load.
03 The current is dependent on the supply voltage. An
undervoltage condition with a constant load can result
in an increased current draw. To prevent such cases
monitoring of the pure active current is insufficient.
This means that pure current monitoring is applicable
only for extreme operating conditions, such as a drive
blockage, because the current rises dramatically in
such cases.
POWER MONITORING SYSTEMS WITH
POWER FACTOR MEASUREMENT (COS φ )
The power factor cos φ is the cosine of the phase shift angle between the current drawn and the voltage
applied. For electrical motors this is dependent on the
loading and theoretically equals 1 in an ideal case. In
reality, the power factor at nominal load is practically
in a range between 0.85 and 0.95.
In an underload range, the cos φ monitor is extremely significant because the proportion of losses increases sharply at lower loads and results in a cos φ of up to <0.5 in an idle state. This is not applicable around the
zero point and in an overload range because load
changes cause only small changes of the phase shift
angle φ.
POWER MONITORING SYSTEMS WITH
EFFECTIVE POWER MEASUREMENTS
The effective power measurement facilitates obtaining the most precise feedback regarding the state of
an electrical motor because the effective power is proportional to the shaft power. A direct correlation
exists between the effective power supplied and the motor loading (torque at constant rotational speed)
across the entire working range.
GAMMA SERIES POWER MONITORS
Examples for power monitor applicationsp Waste compactors
p Crusher
p Agitators
p Conveyor belts
p Ventilation systems
p Machinery tools
p Bridge and portal cranes
p Centrifugal and piston pumps
35
MODEL G2CM400 V10 AL20 G2BA400 V12 A 4-20MA G2BA400 V12 A 0-10 V
G2BM400 V12 AL10G2BM400 V12 AFL10
G4CM690 V16 ATL20 G4BM480 V12 ADTL20
ORDER INFORMATION
PART NO 2390602 2390705 2390708
23907002390702 2394600 2394706 (24-240 V AC/DC)
2394700
FUNCTIONALITYcos φ power factor in 1- or 3-phase mains
active power transducer in 1- or 3-phase mains
true power monitoring in cos φ power factor in true power monitoring in
O ... Overload monitoring •U ... Underload monitoring •W ... Window monitoring •2MIN … Minimum monitoring
2MAX … Maximum monitoring
MIN/MAX … Minimum- and maximum monitoring
+LATCH ... Error memory •I = 0 DETECTION … Recognition of disconnected load
Temp … Temperature monitoring of the motor
SWITCHING THRESHOLD
Zero ... Zero point - 0 %, 25 %, 50 % and 75 % of nominal value
Zero Fine ... Fine setting zero point - 0 – 25 % of nominal value
Span ... Measuring span - 100 %, 75 %, 50 % and 25 % of nominal value
Threshold P / P1 cos φ Max: 0.2 – 1.0 - 5 – 120 % of P cos φ 1: 0,3 – 1 (inductive)1 – 0,3 (capacitive)
2.5 kW: 120 – 2490 W10 kW: 480 – 9960 W
Threshold P2 cos φ Min: 0.1 – 0.99 -cos φ 1: 0,3 – 1 (inductive)
1 – 0,3 (capacitive)
MEASURING CIRCUIT
Measuring variablepower factor (cos φ),
1- or 3-phase loads AC sinustrue power,
1- or 3-phase loads AC sinustrue power,
1- or 3-phase loads AC sinuspower factor (cos φ),
1- or 3-phase loads AC sinustrue power,
1- or 3-phase loads AC sinus
Measuring range 0.1 – 1 0.75 kW • 1.5 kW • 3 kW • 6 kW 0.5 kW • 1 kW • 2 kW • 4 kW 0.3 – 1 2.5 kW • 10 kW
Measuring input voltage40 – 415 V AC (single-phase)
40/23 to 415/240 V (3 ~)0 – 480 V AC (single-phase)
0 to 480/277 V (3 ~)0 – 230 V AC (single-phase)
0 – 415/240 V (3 ~)85 – 690 V AC (single-phase)
85 – 690/400 V (3 ~)0 – 480 V AC (single-phase)
0 – 480/277 V (3 ~)
Overload capacity voltage500 V AC (single-phase)
500/289 V (3 ~)550 V AC (single-phase)
550/318 V (3 ~)300 V AC (single-phase)
500/289 V (3 ~)796 V AC (single-phase)
796/460 V (3 ~)550 V AC (single-phase)
550/318 V (3 ~)
Measuring input current * 0.5 – 10 A 0 – 6 A (0.6 and 1.2 kW)0 – 12 A (2.4 and 4.8 kW)
0 – 6 A (0.5 and 1 kW)0 – 12 A (2 and 4 kW)
1 – 8 A1 – 16 A
0.15 – 6 A (2.5 kW)0.3 – 12 A (10 kW)
Overload capacity current 11 A permanent 12 A permanent 12 A permanent 20 A permanent 12 A permanent
SUPPLY CIRCUIT
Supply voltage selectable via power module TR2 or SNT2 24 – 240 V DC; 48 – 240 V AC selectable via power module TR2 or SNT selectable via power module TR3 24 – 240 V AC/DC or selectable via power module TR3
TIME CIRCUITS
Start-up surpression time (start) 1 – 100 s -1 – 100 s (AL10)0.1 – 2 s (AFL10) 3 – 180 s 0 – 100 s
Tripping delay (delay) 0.1 – 40 s -0.1 – 50 s (AL10)0.1 – 2 s (AFL10) 1 – 50 s 0.1 – 50 s
INPUT CIRCUIT
Control input - - Y1-Y2 (Latch) Y1-Y2 (Latch) Y1-Y2 (Latch)
OUTPUT CIRCUIT
Analog output -4 – 20mA (Burden: max. 500 Ω)
0-10 V (Burden: min. 3k Ω)
Number of switch contacts 2 CO contacts - 1 CO contact 2 CO contacts 2 CO contacts
Max. switching capacity 1250 VA (5 A / 250 V AC) - 1250 VA (5 A / 250 V AC) 1250 VA (5 A / 250 V AC) 1250 VA (5 A / 250 V AC)
DESIGN
Dimensions (W × H × D) 22.5 × 90 × 108 mm 22.5 × 90 × 108 mm 22.5 × 90 × 108 mm 45 × 90 × 108 mm 45 × 90 × 125 mm
Certificates CE, cULus, EAC CE, EAC CE, cULus, EAC CE, cULus, EAC CE, cULus, EAC
* For higher currents, the corresponding current transformers can be used as accessories, whereby the smaller measuring range must always be used for the device. For current transformers please see page 49. Power modules TR2, TR3 and SNT2 can be found on page 46.
GAMMA SERIES POWER MONITORS
36
G2CM400 V10 AL20 G2BA400 V12 A 4-20MAG2BA400 V12 A 0-10 V
G2BM400 V12 AL10 G2BM400 V12 AFL10
G4CM690 V16 ATL20 G4BM480 V12 ADTL20
PART NO 2390602 23907052390708
23907002390702 2394600 2394706 (24-240 V AC/DC)
2394700
cos φ power factor in active power transducer in true power monitoring in 1- or 3-phase mains
cos φ power factor in 1- or 3-phase mains
true power monitoring in 1- or 3-phase mains
• •... Underload monitoring • • ... Window monitoring •
• • … Maximum monitoring • •
MIN/MAX … Minimum- and maximum monitoring • •• • •• • •
Temp … Temperature monitoring of the motor • •
0 %, 25 %, 50 % and 75 % of nominal value - - -
Zero Fine ... Fine setting zero point 0 – 25 % of nominal value - - -
100 %, 75 %, 50 % and 25 % of nominal value - - -
Threshold P / P1 cos φ Max: 0.2 – 1.0 5 – 120 % of PN
cos φ 1: 0,3 – 1 (inductive)1 – 0,3 (capacitive)
2.5 kW: 120 – 2490 W10 kW: 480 – 9960 W
Threshold P2 cos φ Min: 0.1 – 0.99 -cos φ 1: 0,3 – 1 (inductive)
1 – 0,3 (capacitive) -
power factor (cos φ), 1- or 3-phase loads AC sinus
true power,1- or 3-phase loads AC sinus
true power, 1- or 3-phase loads AC sinus
power factor (cos φ), 1- or 3-phase loads AC sinus
true power, 1- or 3-phase loads AC sinus
0.1 – 1 0.75 kW • 1.5 kW • 3 kW • 6 kW 0.5 kW • 1 kW • 2 kW • 4 kW 0.3 – 1 2.5 kW • 10 kW
40 – 415 V AC (single-phase)40/23 to 415/240 V (3 ~)
0 – 480 V AC (single-phase)0 to 480/277 V (3 ~)
0 – 230 V AC (single-phase)0 – 415/240 V (3 ~)
85 – 690 V AC (single-phase)85 – 690/400 V (3 ~)
0 – 480 V AC (single-phase)0 – 480/277 V (3 ~)
500 V AC (single-phase)500/289 V (3 ~)
550 V AC (single-phase)550/318 V (3 ~)
300 V AC (single-phase)500/289 V (3 ~)
796 V AC (single-phase)796/460 V (3 ~)
550 V AC (single-phase)550/318 V (3 ~)
Measuring input current * 0.5 – 10 A 0 – 6 A (0.6 and 1.2 kW)0 – 12 A (2.4 and 4.8 kW)
0 – 6 A (0.5 and 1 kW)0 – 12 A (2 and 4 kW)
1 – 8 A1 – 16 A
0.15 – 6 A (2.5 kW)0.3 – 12 A (10 kW)
11 A permanent 12 A permanent 12 A permanent 20 A permanent 12 A permanent
selectable via power module TR2 or SNT2 24 – 240 V DC; 48 – 240 V AC selectable via power module TR2 or SNT selectable via power module TR3 24 – 240 V AC/DC or selectable via power module TR3
Start-up surpression time (start) 1 – 100 s 1 – 100 s (AL10)0.1 – 2 s (AFL10) 3 – 180 s 0 – 100 s
Tripping delay (delay) 0.1 – 40 s 0.1 – 50 s (AL10)0.1 – 2 s (AFL10) 1 – 50 s 0.1 – 50 s
Control input Y1-Y2 (Latch) Y1-Y2 (Latch) Y1-Y2 (Latch)
4 – 20mA (Burden: max. 500 Ω)0-10 V (Burden: min. 3k Ω) - - -
Number of switch contacts 2 CO contacts 1 CO contact 2 CO contacts 2 CO contacts
Max. switching capacity 1250 VA (5 A / 250 V AC) 1250 VA (5 A / 250 V AC) 1250 VA (5 A / 250 V AC) 1250 VA (5 A / 250 V AC)
Dimensions (W × H × D) 22.5 × 90 × 108 mm 22.5 × 90 × 108 mm 22.5 × 90 × 108 mm 45 × 90 × 108 mm 45 × 90 × 125 mm
Certificates CE, cULus, EAC CE, EAC CE, cULus, EAC CE, cULus, EAC CE, cULus, EAC
* For higher currents, the corresponding current transformers can be used as accessories, whereby the smaller measuring range must always be used for the device. For current transformers please see page 49. Power modules TR2, TR3 and SNT2 can be found on page 46.
GAMMA SERIES POWER MONITORS
37
FUNCTIONS TIMING RELAYS
Our timing relays have a variety of functions –
here they are in detail:
Timing Relays Function Overview
E ON DELAY
When the supply voltage U is applied, the set interval t begins. After the interval t has expired the output
relay R switches into on-position. This status remains until the supply voltage is interrupted. If the supply
voltage is interrupted before the expiry of the set interval, the interval t already expired is erased and is
restarted when the supply voltage is next applied.
A OFF DELAY WITHOUT AUXILIARY VOLTAGE
When the supply voltage U is supplied, the output relay R swiches into on-position. If the supply voltage is
interrupted, the set interval t begins. After the set interval t has expired the output relay R switches into
off-position. If the supply voltage is reconnected before the interval t has expired the interval already is
erased and is restarted with the next cycle.
R OFF DELAY
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the
output relay R switches into on-position. If the control contact is opened, the set interval t begins. After the
interval t has expired the output relay switches into off-position. If the control contact is closed again before
the set interval has expired, the interval already expired is erased and is restarted.
S STAR-DELTA START-UP
When the supply voltage U is applied, the star-contact switches into on-position and the set star-time t1
begins. After the interval t1 has expired the star-contact switches into off-position and the set transit-time t2
begins. After the interval t2 has expired the delta-contact switches into on-position. To restart the function
the supply voltage must be interrupted and reapplied.
ER ON DELAY AND OFF DELAY WITH CONTROL CONTACT
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the
set interval t1 begins. After the interval t1 has expired, the output relay R switches into on-position. If the
control contact is opened, the set interval t2 begins. After the interval t2 has expired, the output relay
Switches into off-position. If the control contact is opened before the interval t1 has expired, the interval
already expired is erased and is restarted with the next cycle.
U
LED U/t
R <tt
U
LED U
R t <t t
U
U/t
S
R
LED
<tt
<t
UU/t
Y
LED
17-28
17-18
t1 t2
RLED
U
U/t
S
R
LED
t2t1 <t1
U Supply voltage
LED LED status indication
LED U LED status indication supply voltage
LED R Led status indication relay output
LED U/t LED status indication for supply voltage
and timing of function
R Relay output
T Thyristor output
S Control/Trigger input
Y Star/Wye time
∆ Delta time
t Set time
38
FUNCTIONS TIMING RELAYS
Ec ADDITIVE ON DELAY
When the supply voltage U is applied, the release for the interval starts. When the control contact S is closed,
the set interval t begins. If the control contact S is opened during the set interval t, the interval stops, and the
already expired interval is stored. During the lapse of time the control contact can be opened or closed as
often as required. If the sum of the periods, in which the control contact S is closed reaches the set interval
t the output relay R switches into on-position. The interval is stopped and a further activation of the control
contact S remains without effect. By interrupting the supply voltage, the device will be reset. A possibly
expired time t is deleted.
Es ON DELAY WITH CONTROL INPUT
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the set
interval t begins. After the interval t has expired the output relay R switches into on-position. This status
remains until the control contact is opened again. If the control contact is opened before the interval t has
expired, the interval already expired is erased and is restarted with the next cycle.
ET ON DELAY TWO WIRE CONNECTED
When the supply voltage U is applied, the set interval t begins. After the interval has expired the thyristor
switches on. This status remains until the supply voltage is interrupted. If the supply voltage is interrupted
before the expiry of the interval, the interval already expired is erased and is restarted when the supply
voltage is next applied.
Wu SINGLE SHOT LEADING EDGE VOLTAGE CONTROLLED
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t
begins. After the interval t has expired the output relay switches into off-position. This status remains until
the supply voltage is interrupted. If the supply voltage is interrupted before the interval t has expired, the
output relay switches into off-position. The interval already is erased and is restarted when the supply
voltage is next applied.
EWu ON DELAY SINGLE SHOT LEADING EDGE WITH CONTROL CONTACT
When the supply voltage U is applied, the set interval t1 begins. After the interval t1 has expired, the output
relay R switches into on-position and the set interval t2 begins. After the interval t2 has expired, the output
relay switches into off-position. If the supply voltage is interrupted before the interval t1+t2 has expired, the
interval already expired is erased and is restarted when the supply voltage is next applied.
nWu MAINTAINED SINGLE SHOT LEADING EDGE
When the supply voltage U is applied, the output relay R switches into on-position and the set interval t
begins. After the interval t has expired the output relay switches into off-position. This status remains until
the supply voltage is interrupted. If the supply voltage is reconnected before the interval t has expired, the
unit continues to perform the actual single shot.
Ws SINGLE SHOT LEADING EDGE WITH CONTROL INPUT
The supply voltage U must be constantly applied to the device. When the control contact S is closed, the
output relay R switches into on-position and the set interval t begins. After the interval t has expired the
output relay switches into off-position. During the interval, the control contact can be operated any number
of times. A further cycle can only be started when the cycle run has been completed.
U
LED U/t
S
R tt
U
U/t
R
LED
t2t1
U
LED U/t
R <tt
U
T <tt
U
U/t
S
R
LED
t1 <t
U
LED U/t
S
R
t1 t2 t=t1+t2
U
LED U
R tt
39
TELE SensAct
TELE introduces a new range of communication-capable
monitoring devices with ModBus RTU interface with the
focus on electric energy applications and monitoring of
key electrical values in industrial plants. The modules
reliably measure current / voltage / power / energy and
various other electrical values in single or three phase
networks and supply the data via ModBus RTU to a PLC
or other data logger. The fast measurement cycle and
fast responding data transmission gives the operator
a clear overview of the condition of his system. These
accurate process data enable process specialists to
adapt maintenance intervals accordingly and help to
avoid costly unscheduled downtimes.
3-PHASE POWER METER WITH MODBUS RTU
The 3-phase power meter with ModBus RTU is a
complete three phase power meter housed in a
17.5 mm wide module and supports the connection of
most common current transformers (1 or 5 A, 333 mV, Rogowski probes). It measures the power (active /
reactive / apparent power, bidirectional energy, RMS
values, frequency, power factor) in three-phase supply
networks. The device is available in three different versions for various applications from standard
measurement to power quality requirements.
1-PHASE POWER METER AC/DC WITH MODBUS RTU
The 1-phase power meter AC/DC with ModBus RTU
measures DC current up to 50 A/300 A and DC voltage up to 1000 V. With the same device you can measure both current and voltage for different applications in the fields of renewable energy, building automation or mobility. Thanks to the build-in interface converter
RS485 Modbus RTU, data is available directly at the
datalogger without any other hardware or software.
The new, compact, monitoring modules with ModBus RTU
interface, for highly accurate and reliable measurement generate
many measured values for a PLC or other master devices.
40
3-phase power meter with ModBus RTU
Installation design
Up to 500 V P-P and universal CT input with ModBus RTU / RS485 interface and programmable
digital switch in one module size (17,5 mm). Version S1XMmHM also includes harmonic analysis
up to 63rd, THD, I/ V peak. Advanced software and energy counter.
1-phase universal current/voltage converter with ModBus RTU
Installation design
Universal sensor input, analog output and RS485 ModBus RTU, RMS, AC and DC
measurement, min/max and average measurement, frequency and crest factor
measurement, temperature and resistance measurement (PT100 or NTC) and internal
temperature measurement.
1-phase power meter AC/DC with ModBus RTU
Converter design
AC up to 50 A or up to 300 A and DC up to 50 A or up to 400 A with ModBus RTU / RS485
interface, DIN rail mounting, frequency range DC or 1 to 400 Ω; measurements: Irms, Vrms,
Watt, VAr, VA, Vpk, Ipk, frequency, Cos φ, energy bidirectional, THD voltage versions: 800 V
AC / 1000 V DC or 80 V AC / 100 VDC
1-phase AC/DC current transformer with ModBus RTU & analog interface
Converter design
TRMS measurement up to 50 A or up to 300 A, frequency range DC or 20…2000 Hz, bipolar,
analog 0-10 V and serial output ModBus RTU/ RS485, adjustable range by dip switch or
RS485, DIN rail mounting horizontal or vertical.
Serial converter USB-RS485 (isolated up to 5 kV)
USB
The S-USB485 is a serial converter isolated up to 5 kV, with software functions based on a
USB FTDI chip. Windows validated drivers download automatically when your PC is online.
This device connects safely to any ModBus device on RS485.
SENSACT SERIES POWER MONITORS
41
MODEL S1MMMA500 VM S1MMMA500 VLM S1MMMA500 VHM S6XM50 A1000 VM S6XM50 A100 VM S9XM300 A1000 VM S9XM300 A100 VM S6IA50 A / S6IA50 AM S9IA300 A / S9IA300 A
ORDER INFORMATION
PART NO 2800300 2800310 2800320 2800200 2800210 2800220 2800230 2800100 2800110 2800000 / 2800010 2800020 / 2800030
INTERFACE
ModBus RTU • • • • • (2800010) (2800030)ModBus RTU on T-Bus • • •Analog 4-20mA (2800000) (2800020)Analog 0-10 V
Digital out • • •
FUNCTIONALITY 3-ph power meter 3-ph power meter 3-ph power meter 1-ph power meter 1-ph power meter 1-ph power meter 1-ph power meter 1-ph analyzer 1-ph analyzer 1-ph current transformer (CT) 1-ph current transformer (CT)
MEASUREMENT RANGE
Current AC ext.CT/Hall/Rogowski ext.CT/Hall/Rogowski ext.CT/Hall/Rogowski 50 A 50 A 300 A 300 A external CT external CT 50 A 300 A
Current DC 333 mV 333 mV 333 mV 50 A 50 A 400 A 400 A external Hall sensor external Hall sensor 50 A 300 A
Voltage AC 500 V P-P 500 V P-P 500 V P-P 800 V 80 V 800 V 80 V (external VT) (external VT)
Voltage DC - - - 1000 V 100 V 1000 V 100 V (external VT) (external VT)
MEASUREMENT VALUES
Irms • • • • • (alt. voltage) (alt. voltage)Idc • • (alt. voltage) (alt. voltage)Iac (alt. voltage) (alt. voltage)Ah on Irms (alt. voltage) (alt. voltage) (2800010) (2800030)Ah on Idc (alt. voltage) (alt. voltage)Ah on Iac (alt. voltage) (alt. voltage)Vrms • • • • •Vdc • •Power/ reactive power/ apparent power • • • • •Cos φ • • • • •Distorted power factor • •Tan φ • •Active energy bidirectional • • • • •Reactive/ Apparent energy bidirectional • • •Ipeak / Vpeak • • • • •Frequency • • •Crest factor • • •Temperature (PT100 / NTC)
Resistance (of PT100 / NTC)
Internal temperature • •Min, Max values • • • •Average values • •THD • • • •TDD • •Phase sequence monitoring • •Time above threshold for power • •Inverter input (PWM modulated) •Harmonic analysis up to 63rd •Interharmonics •Sag •Swell •Interruption •Waveform display •1-ph device efficiency measurement •Certificates CE CE, cULus CE CE, cULus CE CE, cULus (Art.2800030)
SENSACT SERIES POWER MONITORS
42
S1MMMA500 VM S1MMMA500 VLM S1MMMA500 VHM S6XM50 A1000 VM S6XM50 A100 VM S9XM300 A1000 VM S9XM300 A100 VM S1XMMM S1XMMHM S6IA50 A / S6IA50 AM S9IA300 A / S9IA300 A
PART NO 2800300 2800310 2800320 2800200 2800210 2800220 2800230 2800100 2800110 2800000 / 2800010 2800020 / 2800030
ModBus RTU • • • • • (2800010) • (2800030)ModBus RTU on T-Bus • •Analog 4-20mA • • • (2800000) • (2800020)Analog 0-10 V • •
• •
3-ph power meter 3-ph power meter 3-ph power meter 1-ph power meter 1-ph power meter 1-ph power meter 1-ph power meter 1-ph analyzer 1-ph analyzer 1-ph current transformer (CT) 1-ph current transformer (CT)
Current AC ext.CT/Hall/Rogowski ext.CT/Hall/Rogowski ext.CT/Hall/Rogowski 50 A 50 A 300 A 300 A external CT external CT 50 A 300 A
Current DC 333 mV 333 mV 333 mV 50 A 50 A 400 A 400 A external Hall sensor external Hall sensor 50 A 300 A
Voltage AC 500 V P-P 500 V P-P 500 V P-P 800 V 80 V 800 V 80 V (external VT) (external VT) - -
Voltage DC 1000 V 100 V 1000 V 100 V (external VT) (external VT) - -
• • • (alt. voltage) • (alt. voltage) • •• • • (alt. voltage) • (alt. voltage)
• (alt. voltage) • (alt. voltage)
• (alt. voltage) • (alt. voltage) • (2800010) • (2800030)
• (alt. voltage) • (alt. voltage)
• (alt. voltage) • (alt. voltage)Vrms • •Vdc • •Power/ reactive power/ apparent power • •Cos φ • •Distorted power factor
Tan φ
• •
Ipeak / Vpeak • • •Frequency •Crest factor •Temperature (PT100 / NTC) • •Resistance (of PT100 / NTC) • •
•Min, Max values • • • •
• •THD • • •TDD
Phase sequence monitoring
Time above threshold for power
Inverter input (PWM modulated)
Harmonic analysis up to 63rd •
Swell
1-ph device efficiency measurement
Certificates CE CE, cULus CE CE, cULus CE CE, cULus (Art.2800030)
SENSACT SERIES POWER MONITORS
43
Grid and system protection
WHY?
In the event of a network shutdown or network
disruption, small power plants must be disconnected
from the grid immediately to avoid any danger to
people andmachinery.
FUNCTION
An automatic disconnection device monitors the feed-
in of energy to the 230/400 V grid. In case of a power failure or disruption by the energy supplier it is vital
for small power plants to be disconnected within a
few milliseconds. Voltage- and frequency monitoring
as well as island operation detection are the main
requirements for an automatic disconnection device.
REQUIREMENT
Converting renewable energy into electricity is a
key element in stabilizing the global climate. In the
context of small and micro power plants we mainly see
photovoltaic installations, small wind power generators,
cogeneration plants or small hydropower plants
being used. The energy obtained is used to cover own
consumption or increasingly fed into the public low-
voltage grid at a profit. To ensure network safety, an automatic interface monitors the transfer between
small power plants and the grid of the energy supplier
(ES). Large power plants are managed and monitored
directly by the ES using telecontrol technology. Yet, this method is too expensive and therefore uneconomical
for many small electricity producers.
In the event of a power cut or a disruption in the grid
of the energy supplier, small power plants have to
be disconnected immediately from the public grid to
prevent unwanted feed-in, and to protect maintenance
personnel and consumers from risk of improper
voltages and frequencies. Monitoring and automatic
disconnection are carried out by an automated
Autonomously working disconnecting unit for small power plants
44
interface. Small power plants must be equipped
with an automatic isolation unit that is checked and
permitted by an accredited authority. Country-specific norms define in-depth how the interface must be constructed and certified. To meet requirements of the energy supply companies‘ standards the market offers solutions as individual components, multinational
components as well as integrated solutions. If required
by the network operator, the thresholds can be
adjusted even outside of standard values. Functionally
safe devices also fulfil the monitoring function in the event of faults, detect these faults and ensure safe
operating conditions.
TELE’s NA003-M64 offers an optimal solution for each country and any requirement.
MODEL: NA003-M64 PART NO: 2700100 B
FUNCTIONALITY
Implemented standards
Complies with new and previous standards which makes replacement of existing installations fast and easy.
Predefined parameter settings for several countries.
Check all available standards and settings by scanning the QR Code:
Measuring variablephase to phase voltage, phase to neutral voltage, 10 minutes voltage average,
frequency, frequency change (RoCoF), phase shift (PShift)
Measuring rangephase to phase voltage: 0 … 560 VAC, phase to neutral voltage: 0 … 325 VAC
frequency: 40 … 60 Hz, RoCoF 100m Hz/s … 2.000m Hz/s, Pshift 1 … 15°
Monitoring functions
. 2 × phase to neutral overvoltage 2 × phase to neutral undervoltage;
. 2 × phase to phase overvoltage 2 × phase to phase undervoltage;
. 1 × 10 minutes voltage average (over) . 4 × overfrequency, 4 × underfrequency, 1 × random
overfrequency . 1 × RoCoF (over), 1 × PShift (over)
Features
. each turn-off threshold is associated with its own turn off time
. fixed turn-on time, random turn-on time . configurable feedback contact evaluation . enable / disable functions via digital inputs . enable / disable functions via selectable mode
. 4 different connection and measuring modes: 2 wire (single phase L1, N); 3 wire (3 phase without N); 4 wire (3 phase LL only); 4 wire (3 phase LL + LN)
. configurable nominal voltage . functional safety . password protection and sealing capability . error memory with time stamp (entries)
Supply voltage24 V DC ± 10 %,
110 … 240 V AC ± 30 %,
Rated frequency 50/60 Hz or DC
Tolerance of rated frequency 48…63 Hz
Output circuit 3 CO contacts 5 A, 250 V AC (1250 VA)
Digital inputs 5 inputs for potential free contacts (24 V / 5mA)
DESIGN
Dimensions (W × H × D) 106.3 × 90.5 × 62 mm
Certificates CE, EAC
Wind power
plant
Combined heat
and power plant
PhotovoltaicsHydro power plant
Biomass power
plant
Battery
storage
Multifunctional device
Open setup, fully configurable without any limitations
One device for low and medium voltage grid
45
Accessories
MODELSUPPLY
VOLTAGE TOLERANCEPOWER
INPUT PIN
POWER OUTPUT P
OUTDESIGN PART NO
SNT2 – 24 V DC 24 V DC 20.4 – 26.4 V 2 VA 0.5 VA A 282050
TR2 – 24 V AC 24 V AC 20.2 – 26.4 V 2 VA 0.5 VA A 282110
TR3 – 24 V AC 24 V AC 20.4 – 26.4 V 4 VA 1.5 VA B 285010
TR2 – 42 V AC 42 V AC 36 – 46 V 2 VA 0.5 VA A 282111
TR2 – 48 V AC 48 V AC 41 – 53 V 2 VA 0.5 VA A 282112
TR2 – 110 V AC 110 V AC 94 – 121 V 2 VA 0.5 VA A 282113
TR3 – 110 V AC 110 V AC 94 – 121 V 4 VA 1.5 VA B 285013
TR2 – 127 V AC 127 V AC 108 – 140 V 2 VA 0.5 VA A 282114
TR2 – 230 V AC 230 V AC 195 – 264 V 2 VA 0.5 VA A 282120
TR3 – 230 V AC 230 V AC 184 – 264 V 4 VA 1.5 VA B 285025
TR2 – 400 V AC 400 V AC 340 – 456 V 2 VA 0.5 VA A 282117
TR3 – 400 V AC 400 V AC 323 – 456 V 4 VA 1.5 VA B 285017
TR2 – 440 V AC 400 V AC 374 – 484 V 2 VA 0.5 VA A 282119
TR3 – 440 V AC 440 V AC 374 – 484 V 4 VA 1.5 VA B 285019
TR3 – 500 V AC 500 V AC* 425 – 550 V 4 VA 1.5 VA B 285026
* May only be used with types G4PM and G4BM!
TR2
TR3
SNT2
32mm
35m
m
16mm
5mm
26mm
5mm
Design A (TR2, SNT2) for Gamma G2
Design B(TR3) for Gamma G4
TR2, TR3, SNT Series power modules for transforming the supply voltage to the internal operating voltage of GAMMA relays
For our timing- and monitoring relays, power monitors
and grid- and system protection we offer the following accessories.
Timing relays Power monitorsGrid and system
protectionMonitoring relays
46
Probes – SK Series for monitoring level of conductive liquids
MODEL TYPEMEASURING
VOLTAGEMAX. TEMP.
NUMBER OF ELECTRODES LENGTH DESIGN
PART NO
SK1 immersion probe
max. 24 V AC
60° C 1 140 mm A 190107
SK2
rod probe
90° C 2 500 mm B 190108
SK3-500 90° C 3 500 mm C 190109
SK3-1000 90° C 3 1000 mm C 190110
1 2
Radius R1"
1 3
Radius R1"
2
A B C
Front Cover FA-G2 for GAMMA monitoring relays (width 22.5 mm)
MODEL Ø DRILL HOLES DIMENSIONS (W × H × D) PART NO
FA-G2
Sealable front cover for protecting GAMMA devices against unintended
or unauthorized changes in setup parameters.
22.5 × 80 × 5 mm 070160
80mm
80mm
5mm
Remote Potentiometer RONDO Series frontpanel mounting adjusting values of intended timers and thyristor control units remotely.
MODEL SCALE DIMENSIONS (W × H × D) CONNECTIONS PART NO
R2 1M Ω 0.1 0,1 – 1
Ø 28 (Ø 22*) × 53 mm1 = First
2 = Wiper
3 = Finish
282130
R20 10K Ω 0 – 10 282131
* diameter front panel mountingR2
47
Complementary products
In addition to our product range we
offer the following complementary products:
p Baffle-type current transformer series: WSWp Bar-type current transformer series: DSW
[page 49]
[page 49]
p Coupling relay series: ENYAp Automatic-manual-OFF relay series: OCTO
p Analog data encoder series: OCTO
p Levelswitch series: OCTO
[page 50]
[page 50]
[page 50]
[page 50]
p Interface relay series: STKR and SKRp Miniature relay series: RA and RM
p PCB relay series: RP
p Industrial relay series: RT
p Multifunction time module series: COMBI
[page 51]
[page 51]
[page 51]
[page 52]
[page 52]
p Motor starter series: P4.0
p Thyristor switch (SSR) series: GTS
p Fuse and fuse holders
[page 54]
[page 56]
[page 56]
p Hour meter series: TBG and TBW
p Digital time switch series: TSC
p Countdown timer series: TTC
[page 57]
[page 57]
[page 57]
p Switching power supplies [page 58]
Current transformers
Coupling units
Switching relays
Sets
Accessoires
Softstarter
Braking unitsThyristor control units
Hour metersDigital time switchesCountdown timer
DC power supplies
48
MODEL RATED POWERRATED PRIMARY
CURRENTSECONDARY
CURRENT DIMENSIONS CLASS PART NO
WSW 60 1 A/5 A 2,5 VA 2,5 VA 1 A
5 A
80 × 60 × 30 mm
1
498060
WSW 60 5 A/5 A 2,5 VA 2,5 VA 5 A 80 × 60 × 30 mm 498062
WSW 60 10 A/5 A 2,5 VA 2,5 VA 10 A 80 × 60 × 30 mm 498063
WSW 60 15 A/5 A 2,5 VA 2,5 VA 15 A 80 × 60 × 30 mm 498064
WSW 60 20 A/5 A 2,5 VA 2,5 VA 20 A 80 × 60 × 30 mm 498065
WSW 60 25 A/5 A 2,5 VA 2,5 VA 25 A 80 × 60 × 30 mm 498066
WSW 60 30 A/5 A 2,5 VA 2,5 VA 30 A 80 × 60 × 30 mm 498067
WSW 60 40 A/5 A 2,5 VA 2,5 VA 40 A 80 × 60 × 30 mm 498068
DSW 60 50 A/5 A 1,25 VA 1,25 VA 50 A 50,5 × 50,5 × 85 mm3
498069
DSW 60 75 A/5 A 2,5 VA 2,5 VA 75 A 50,5 × 50,5 × 85 mm 498071
DSW 60 100 A/5 A 2,5 VA 2,5 VA 100 A 33 × 33 × 50 mm
1
498073
DSW 60 150 A/5 A 3,75 VA 3,75 VA 150 A 33 × 33 × 50 mm 498075
DSW 60 200 A/5 A 5 VA 5 VA 200 A 33 × 33 × 50 mm 498076
DSW 60 250 A/5 A 5 VA 5 VA 250 A 33 × 33 × 50 mm 498077
DSW 60 300 A/5 A 5 VA 5 VA 300 A 33 × 33 × 50 mm 498078
ACCESSORIES DESCRIPTION PART NO
MC-SW (2 pcs) Mounting clip required for mounting the current transformer on DIN-Rail TS 35 498100
16mm
16mm
23mm
23mm
33mm
28mm
Bar-type current transformer DSW 60 with dimensions
Baffle-type current transformer WSW 60
Mounting clips for DSW and WSW
COMPLEMENTARY PRODUCTS
49
ENYA Series coupling units / OCTO Series coupling units
MODEL E1K16A E1KE3K
HAR1 OVP1 OCP1 OVL1 OCL1
ORDER INFORMATION
PART NO 110701 110700 (E1K)111700 (E3K) 170010 170012 170018 170015 170017
FUNCTIONALITY coupling relays coupling relaysautomatic manual
off relayanalog data
encoderanalog data
encoder level switch level switch
Coupling unit • •AUTO … Automatic • • • • •0 … OFF • • • • •HAND … Manual • • • • •
SUPPLY CIRCUIT
Supply voltage 24 – 240 V AC/DC 24 – 240 V AC/DC (E1K)12 – 240 V AC/DC (E3K) 24 V AC/DC 24 V AC/DC 24 V AC/DC 24 V AC/DC 24 V AC/DC
Rated frequency 48 – 63 Hz
INPUT CIRCUIT
Control voltage - - 24 V AC/DC - - - -
Analog input DC - - - 0 – 10 V 0 – 20 mA 0 – 10 V 0 – 20 mA
Trigger level DC - - - 0 – 10 V 0 – 20 mA 1 – 10 V 2 – 20 mA
CHECKBACK
Number of checkback contacts - - 1 NO contact 1 NO contact 1 NO contact 1 NO contact 1 NO contact
Min. switching capacity - - 5 mVA (1mA / 5 V) 5 mVA (1mA / 5 V) 5 mVA (1mA / 5 V) 5 mVA (1mA / 5 V) 5 mVA (1mA / 5 V)
Max. switching capacity - - 24 VA (500mA / 48 V) 56 VA (2 A / 28 V) 56 VA (2 A / 28 V) 56 VA (2 A / 28 V) 56 VA (2 A / 28 V)
OUTPUT CIRCUIT
Number of switching contacts 1 NO contact
1 CO contacts (E1K) 2 CO contacts (E3K) 1 CO contact - - 1 CO contact 1 CO contact
Max. switching capacity AC 4000 VA (16 A / 250 V)
2000 VA (8 A / 250 V)
2000 VA (8 A / 250 V) - -
2000 VA (8 A / 250 V)
2000 VA (8 A / 250 V)
Analog output - - - 0 – 10 V DC 0 – 20 mA - -
DESIGN
Dimensions (W x H x D) 17.5 × 87 × 65 mm 17,5 × 87 × 65 mm (E1K)35 × 87 × 65 mm (E3K) 17.5 × 87 × 70 mm 17.5 × 87 × 70 mm 17.5 × 87 × 70 mm 17.5 × 87 × 70 mm 17.5 × 87 × 70 mm
Certificates CE, EAC
FOR THE ENTIRE PRODUCT RANGE PLEASE VISIT www.tele-online.com/en
COMPLEMENTARY PRODUCTS
50
SKR, STKR Series and Accessories PLC coupling relays
MODEL FUNCTIONRATED
VOLTAGERELAY
VOLTAGENUMBER OF
SWITCH ING CONTACTSPACKAGING
UNIT PART NO
SKR 524PLC coupling
relay unit
24 V AC/DC
1 CO contact
10
180501
SKR 024 24 V DC 180500
SKR 730 230 V AC 180502
STKR 524
PLC coupling relay
modular
24 V AC/DC 24 V DC 180504
STKR 024 24 V DC 24 V DC 180503
STKR 615 115 V AC/DC 60 V DC 180506
STKR 730 230 V AC 60 V DC 180505
RM699 V-3011-85-1024relay for STKR
24 V DC 20 100660
RM699 V-3011-85-1060 60 V DC 20 100661
ACCESSORIES FUNCTION COLOR NUMBER OF POLES
PB-B SKRjumper link
blue20 10
180535
PB-R SKR red 180536
RA, RM Series miniature relays / RP Series PCB relays
MODEL RATED VOLTAGE LEDNUMBER OF
SWITCHING CONTACTSPACKAGING
UNIT PART NO
RA 524L-N 24 V
AC
•
2 CO contacts
10
100623LD-N
RA 615L-N 115 V • 100621LD-N
RA 730L-N 230 V • 100624LD-N
RA 012L-N 12 VDC
• 100625LD-N
RA 024L-N 24 V • 100622LD-N
RM 512L-N 12 V
AC
•
4 CO contacts
100612LD-N
RM 524L-N 24 V • 100613LD-N
RM 615L-N 115 V • 100618LD-N
RM 730L-N 230 V • 100619LD-N
RM 012L-N 12 V
DC
• 100601LD-N
RM 024L-N 24 V • 100603LD-N
RM 048L-N 48 V • 100602LD-N
RM 220L-N 220 V • 100620LD-N
RP 524-1 24 VAC
1 CO contacts
20
100431
RP 730-1 230 V 100432
RP 024-1 24 V DC 100430
RP 524-2 24 VAC
2 CO contacts
100417
RP 730-2 230 V 100418
RP 012-2 12 VDC
100420
RP 024-2 24 V 100416
STKR
RA
RM
RP
COMPLEMENTARY PRODUCTS
51
MODEL FUNCTIONSTIME
RANGESSUPPLY
VOLTAGE
NUMBER OF SWITCHING CONTACTS
DIMENSIONS (W × H × D) CERTIFICATES
PACKAGING UNIT
PART NO
COM3T8
E, R, Ws, Wa, Wu, Es, Bp, Bi
8 (0.05 s – 10 d)
24 – 240 V AC/DC
2 or 3 CO contacts (according to
selected industrial relay)
35 × 12 × 47 mm CE, cULus 20 237010
FOR THE ENTIRE PRODUCT RANGE PLEASE VISIT www.tele-online.com/en
COMBI Series multifunction timing module for industrial relays with socket type ES9 and PF113BEM (ES12)
MODELRATED
VOLTAGE LEDRECOVERY
DIODEGOLD-PLATED
CONTACTSNUMBER OF
SWITCHING CONTACTSPACKAGING
UNIT PART NO
RT 1.2.012L 12 V
AC
•
2 CO contacts
10
100508LD
RT 1.2.024L 24 V • 100507LD
RT 1.2.110L 110 V • 100505LD
RT 1.2.230L 230 V • 100502LD
RT 2.2.012L 12 VDC
• 100517LD
RT 2.2.024L 24 V • 100516LD
RT 1.3.024L 24 V
AC
•
3 CO contacts
100526LD
RT 1.3.048L 48 V • 100524LD
RT 1.3.110L 110 V • 100522LD
RT 1.3.230L 230 V • 100521LD
RT 1.3.230.02L 230 V • • 100521H
RT 2.3.012L 12 V
DC
• 100536LD
RT 2.3.024L 24 V • 100535LD
RT 2.3.024LD 24 V • • 100535FD
RT 2.3.024.02LD 24 V • • 100535H
RT 2.3.048L 48 V • 100533LD
COMPLEMENTARY PRODUCTS
RT Series industrial relays
RT COM3T Socket RT + COM3T + Socket
52
MODEL MODULES USABLETYPE OF
CONNECTIONFOR
RELAYS RATED VOLTAGEPACKAGING
UNIT PART NO
PYF14BE (ES 15/4N)
yes
(pls. s. table below)
screw terminal
RA, RM
300 V AC
10
180134
PYF14BE3 (ES 15/4S) 180145
PYF14BE3CC (ES 15/4G) push-in terminal 180148
CST-B14F2-L (ES 15/4B)
screw terminal
180146
RSS214 RM 180050
PI50BE/3R (ES 50/3)
RP20
180150
PI50BE/3CC (ES 50/3G) push-in terminal 180149
PI50BE (ES 50)
screw terminal
180137
PSS8/3
10
180056
PF083BE (ES8) noRT 8-pin
180139
ES 9 yes
(pls. s. table below)
180041
PF113BEM (ES12)RT 11-pin
180136
PF113BE (R11X) no 1 or 10* 180155
* For KAPPA series also available as single packaging unit.
Sockets for switching relays
Modules and Accessories for switching relays
MODEL TYPE DESCRIPTIONFOR SOCKETS
SERIESFOR SWITCHING RELAYS SERIES RATED VOLTAGE
PACKAGING UNIT PART NO
M21N diode PYF, CST, PI RA, RM, RP 6 – 230 V DC (+A1)20
180261
M41R LED (red) + diode PYF, CST, PI RA, RM, RP 6 – 24 V DC (+A1) 180263
EM 12 LED (green) + diode RSS214, PSS8 RA, RM, RP 6 – 24 V DC (+A1)10
180309
EM 03 RC-link RSS214, PSS8 RA, RM, RP 110 – 230 V AC 180300
TYPE41 (TVL1) LED + diode PF113BEM, ES9 RT 6 – 24 V DC (+A1)20
180232
TYPE21 (TVD1) retaining clip (metal) PF113BEM, ES9 RT 6 – 230 V DC (+A1) 180230
HB/RM-RA retaining clip (plastic) PYF, CST, RSS214 RA, RM 25 180032
HB/ES15 retaining clip (metal) PYF, CST RA, RM10
180153
HB/RT retaining clip(plastic) PF, ES9 RT 180043
HB/RP 16 retaining clip (plastic) PI50 RP 20 180029
HB/PSS retaining clip (plastic) PSS8/3 RP10
180060
BS/PSS front cover (label field) PSS8/3 RP 180057
Socket PYF14BE (ES 15/4N) Socket PYF14BE3CC (ES 15/4G)Socket PSS8COM3T + ES9 + RT1.2.012L Socket PF113BE (R11X)
COMPLEMENTARY PRODUCTS
53
FUNCTIONALITY
Today’s drive solutions require powerful and flexible equipment solutions. The compact motor starter
P-4.0 from TELE can be used for motors up to 4.0 kW @ 400 V and includes 5 functions in one compact unit, measuring only 22,5 mm in width. This intelligent instrument offers soft start, soft stop, forward/reverse, current protection and electronic motor
protection.
Thanks to the integrated motor protection plus
isolation relays, separate MCB devices are not
required. A simple circuit breaker protects the
installation against short circuit and faulty wiring.
The soft start and stop function is performed by
semiconductors (thyristors) and the reversing
function by internal relays, operated in the standstill
phase. After performing the start/stop function
the semiconductors are bypassed by integrated
relays to minimize power dissipation. The intelligent combination of semiconductors and relays increases
lifetime and efficiency of the product. The integrated current limit protects motors, shafts and plants from
mechanical stress and reduces maintenance and
downtimes.
Motor Starter P-4.022,5 mm compact motor starter including motor protection
54
MODEL FUNCTIONALITYMOTOR
CONTROLNOMINAL CURRENT
NOMINAL MOTOR POWER
DIMENSIONS (W × H × D) CERTIFICATES PART NO
P-4.0/RL/OLforward/reverse, soft start,
current limit, blocking protection, soft stop
2-phase 9 A 4 kW 22.5 × 105 × 120.3 mm CE, cULus (listing pending) 490800
P-4.0/RL//TP/ICforward/reverse, soft start,
soft stop, motor protection + isolation contactor
2-phase 9 A 4 kW 22.5 × 105 × 120.3 mm CE, cULus (listing pending) 490801
Technical features
p Forward/Reverse of 3-ph ac motors 3 AC 480 V / 9
A, equals 4.0 kW @ 400 VACp Integrated reversing unit
p 2-ph control for softstart and stop
p Integrated bypass relays
p 3 pots for adjustment of torque, time and max.
current
p 4 LEDs indicate status and error
p Reset button on front and external reset available
p Dimension in mm (W × H × D): 22,5 × 105 × 120,3p Article number:
490800 (F/R + blocking protection)
490801 (F/R + motor protection + isolation
contactor)
Your advantages
p Up to 5 functions in one device
p Forward/Reverse, soft start, current limit, motor
protection, soft stop
p Compact design, only 22.5 mm in widthp Simple commissioning and easy operation
p Robust semiconductors with 1500 V max. isolation voltage
p Increased system availability by motor
protection function
p Increased lifetime by hybrid design compared
to relay solution
p Energy saving by bumpless soft start/stop
function and bypass relay
Applicationsp Reversing drive for door, lifting and transport
application with blocking protection
p Transport systems (belts and rollers) with
blocking protection
p Motorized valves in process applications (chemical
and petrochemical, power generation plants)
p Pumps and fans
p Switching of 3 ph transformers
p ... and a lot of other applications with
sophisticated drive requirements
Advantage of power control with semiconductorsp Switching without any wear
p Extended lifetime
p Frequent start / stop event
p Low space requirement
p Fast switching
p Suitable for industrial environment
Functions
p Reversing direction (forward / return)
p Softstart / Softstop
p Overcurrent protection
p Motorprotection (option)
p Isolation relays (option)
55
MODELAUXILIARY VOLTAGE
NOMINALVOLTAGE
NOMINALCURRENT FAN
INTERNAL FUSE
OPERATING MODE
DIMENSIONS (W × H × D)
PART NO
GTF-25-480-0-0-0-0 1-P-M
24 V AC/DC 480 V AC *
25 A
phase clipping control(other operating
modes configurable)
60 × 136,5 × 143 mm 493100
GTF-40-480-0-0-0-0 1-P-M 40 A 60 × 136,5 × 143 mm 493105
GTF-50-480-0-0-0-0 1-P-M 50 A 80 × 136,5 × 143 mm 493108
GTF-60-480-0-0-0-0 1-P-M 60 A 80 × 136,5 × 143 mm 493111
GTF-75-480-0-0-0-0 1-P-M 75 A 127 × 136,5 × 143 mm 493121
GTF-90-480-0-0-0-0 1-P-M 90 A 127 × 136,5 × 143 mm 493131
GTF-120-480-0-0-0-0 1-P-M 120 A • 127 × 150,5 × 143 mm 493141
GTF-150-480-0-0-1-0 1-P-M 150 A • •108,3 × 302 × 170,4 mm
493152
GTF-200-480-0-0-1-0 1-P-M 200 A • • 493161
GTF-250-480-0-0-1-0 1-P-M 250 A • • 493171
Configuration cable + software 493090
* other nominal voltages upon request
GTF Series digital thyristor control unit (compact design, digital configurable)
GTF
MODEL RATED CURRENT (IEC) POLES FUSE SIZE PART NO
Fuse holder 1-P 10x38 32 A 1-Poles 10 × 38 mm 490976
Fuse holder 3-P 10x38 32 A 3-Poles 10 × 38 mm 490977
Fuse holder 1-P 14x51 50 A 1-Poles 14 × 51 mm 490978
Fuse holder 3-P 14x51 50 A 3-Poles 14 × 51 mm 490979
Fuse holder 1-P 22x58 100 A 1-Poles 22 × 58 mm 490987
Fuse holder 3-P 22x58 100 A 3-Poles 22 × 58 mm 490988
Fuse Holder (capsule fuse)
Fuse holder
COMPLEMENTARY PRODUCTS
MODELNOMINALVOLTAGE
NOMINALCURRENT
CONTROL INPUT FAN
DIMENSIONS (W × H × D) PART NO
GTS-15/48-D-0
480 V AC *
15 A
6 – 32 V DC
24 × 100 × 107 mm 493010
GTS-25/48-D-0 25 A 24 × 100 × 107 mm 493005
GTS-40/48-D-0 40 A 35 × 100 × 142 mm 493003
GTS-50/48-D-0 50 A 60 × 100 × 142 mm 493001
GTS-60/48-D-0 60 A 80 × 100 × 142 mm 493020
GTS-75/48-D-0 75 A 127 × 100 × 142 mm 493021
GTS-90/48-D-0 90 A 127 × 100 × 142 mm 493022
GTS-120/48-D-0 VEN92 120 A • 127 × 100 × 142 mm 493023
* other nominal voltages upon request
GTS Series thyristor switch (compact design, operating mode zero point switch)
GTS
MODELNOMINALCURRENT
NOMINAL CURRENT THYRISTOR CONTROL FUSE SIZE PART NO
HL-fuse 5 A 10 A 5 A 10 × 38 mm 490971
HL-fuse 15 A 25 A 15 A 10 × 38 mm 490975
HL-fuse 25 A 30 A 25 A 10 × 38 mm 490972
HL-fuse 35 A 40 A 35 A 41 × 51 mm 490973
HL-fuse 50 A 63 A 50 A 22 × 58 mm 490974
HL-fuse 50 A GTF 50 A 50 A 22 × 58 mm 490986
Semiconductor Fuse (capsule fuse)
HL-fuse
56
TSC Series Digital Time Switches daily-, weekly- or yearly program, front panel mounting
MODELSUPPLY
VOLTAGECHAN-NELS
NUMBER OF SWITCHING CONTACTS
SWITCHING CAPACITY
RATED CONSUMPTION DIMENSIONS
PART NO
CO NO
TSC44.11PRO 115 V AC 1 1 4000 VA 2.8 VA 72 × 94.5 × 53 mm 711576
TSC44.21PRO 230 V AC 2 1 1 4000 VA 1.5 VA 72 × 94.5 × 53 mm 711579
TTC Series Digital Time Switches countdown timer, front panel mounting
MODEL SUPPLY VOLTAGE TIME RANGENUMBER OF
SWITCHING CONTACTS DIMENSIONS PART NO
TTC24.21 230 V AC 99 h 59 min 59 s 1 CO contact 48 × 48 × 41 mm 711450
TBG Series analog hour meters, DC voltage
MODEL SUPPLY VOLTAGE COUNTING CAPACITY ACCURACY OF READING DIMENSIONS PART NO
TBG30.18
12 – 48 V DC
999 999 h
0.1 h
53.2 × 28.2 × 63 mm 711056
TBG40.17 48 × 48 × 38 mm 711025
TBG70.1899 999 h
17.5 × 85 × 61.5 mm 711435
TBG70.29 35 × 90 × 60 mm 711408
TBW Series analog hour meters, AC voltage
MODELSUPPLY
VOLTAGERATED
FREQUENCYCOUNTING CAPACITY
ACCURACY OF READING DIMENSIONS PART NO
TBW40.18 24 V AC
50 Hz
99 999 h
0.01 h
48 × 48 × 38 mm 711045
TBW40.18 115 V AC 48 × 48 × 38 mm 711042
TBW70.18 115 V AC 17.5 × 85 × 61.5 mm 711434
TBW30.18 230 V AC 53.2 × 28.2 × 63 mm 711050
TBW40.18 230 V AC 48 × 45 × 38 mm 711040
TBW70.18 230 V AC 17.5 × 85 × 61.5 mm 711430
TBW70.29 24 V AC
50/60 Hz 0.1 h
35 × 90 × 60 mm 711355
TBW70.89 115 V AC 35 × 105 × 60 mm 711140
TBW70.89 230 V AC 35 × 105 × 60 mm 711141
TBW70.29 230 V AC 17.5 × 85 × 61.5 mm 711350
ACCESSORIES TBG, TBW DESCRIPTION PART NO
SB-TBX30 tension bracket for TBG/TBW30 711809
B55-TBX40 shutter for TBG/TBW40 (55 × 55 mm) 711800
ME72-TBX40 screen for TBG/TBW40 (72 × 72mm) 711801
SB-TBX40 retaining clip for TBG/TBW40 711807
DR-TBW40 sealing ring for TBW40 (IP54) 711813
KA-TBX70.29 terminal cover for TBG/TBW70.29 (sealable) 711812
TBG/TBW40
TBG/TBW30
TTC24.21
TBG/TBW70.18TBG/TBW70.29
TSC Series Digital Time Switches daily-, weekly- or yearly program, DIN-rail mounting
MODELSUPPLY
VOLTAGECHAN-NELS
NUMBER OF SWITCHING CONTACTS
SWITCHING CAPACITY
RATED CONSUMPTION DIMENSIONS
PART NO
CO NO
TSC18.10EASY* 230 V AC 1 1 4000 VA 1.5 VA 35.8 × 90 × 60 mm 711149
TSC98.20 230 V AC 2 2 2500 VA 2 VA 71.5 × 120 × 60 mm 711132
TSC98.40 230 V AC 4 3 1 2500 VA 2 VA 71.5 × 120 × 60 mm 711131
* EASY ... programmable via smartphone (NFC)TSC18.10EASY
TSC44.21PRO
COMPLEMENTARY PRODUCTS
57
SWITCHING POWER SUPPLIES – DC POWER SUPPLIES (DIN RAIL MOUNTABLE)
MODEL OUTPUT VOLTAGE OUTPUT POWER OUTPUT CURRENT PART NO
NDR-75-24 24 V DC 75 W 3,2 A 491630
NDR-120-24 24 V DC 120 W 5,0 A 491601
NDR-240-24 24 V DC 240 W 10 A 491610
NDR-480-24 24 V DC 480 W 20 A 491619
MORE INFOS ABOUT DC POWER SUPPLIES www.tele-online.com/en
Industrial Housing for switch cabinet and plant construction
MODEL OUTPUT VOLTAGE OUTPUT POWER OUTPUT CURRENT PART NO
HDR-30-12 12 V DC 24 W 2 A 491712
HDR-15-24 24 V DC 15,2 W 0,63 A 491701
HDR-30-24 24 V DC 36 W 1,5 A 491702
HDR-60-24 24 V DC 60 W 2,5 A 491703
HDR-100-24 24 V DC 92 W 3,83 A 491704
Installation Housing for building and plant engineering
a Output voltage 24 V DC
a Output power 75 – 480 W
a Overload and short circuit protection
a Output voltage 24 V DC
a Output power 15 – 92 W
a Overload and short circuit protection
58
PRODUCT CODES
PRODUCTSERIES HOUSING
MEASUREMENTPARAMETER FUNCTION
ADDITIONALFUNCTION OUTPUT TERMINAL
SUPPLY VOLTAGE
E ENYA 1 17.5 mm Z Timer M multifunction FRemote potentiometer
delayedPush-in terminal (VEO) 230 V AC
V VEO 2 22.5 mm Q quattro (4 funct.) 10 1 contactPotential free contact (KAPPA)
24 V DC
G GAMMA 3 35.0 mm E ON delay 20 2 contacts 24–240 V AC/DC
K KAPPA 4 45.0 mm R OFF delay instantaneous etc.
I flasher 01 1 contact
S star-delta (wye-delta) 02 2 contacts
AOFF delay without auxiliary voltage
delayed andinstantaneous
NTemergency light tester
11 1 delayed contact1 instantane-ous contact
TP staircase timer
WI impulse switch mode
ETON delay 2-wire connected
Example product code time delay relay
E1ZM2024-240 VAC/DCENYA series, in a 17.5 mm wide housing, multifunctional timer with a SPDT relay output and a supply voltage of 12-240 V AC/DC.
E 1 Z M 20 24–240 V AC/DC
E 1 Z M 20 24–240 V AC/DC
PRODUCTSERIES HOUSING
MEASUREMENTPARAMETER FUNCTION
MEASURE-MENT
RANGEADDITIONAL
FUNCTION OUTPUT TERMINALSUPPLY
VOLTAGE
E ENYA 1 17.5 mm U voltage 1~ U under 230 V L latch delayedPush-in terminal
230 V AC
V VEO 2 22.5 mm P voltage 3~ Δ O over 10 A D digital 10 1 contact 24 V DC
G GAMMA 3 35.0 mm Y voltage 3~ Y W window 400 V12 A T thermistor 20 2 contacts 24–240 V AC/DC
K KAPPA 4 45.0 mm I current 1~ F error PT100 Y asymmetry instantaneous etc.
J current 3~ Mmulti-function
etc. Sphase sequence 01 1 contact
F frequency Aanalog output
Fquick action release
02 2 contacts
T temperature T test function
L level Kshort circuit monitoring
Beffective power N
zero voltage safe
C cos φ
Example product code monitoring relays
V4IM100 AL20P24-240 VAC/DCVEO series, in a 45.0 mm wide housing, multifunctional current monitoring with two contacts and a supply voltage of 24-240 V AC/DC.
V 4 I M 100 A L 20 P 24–240 V AC/DC
V 4 I M 100 A L 20 P 24–240 V AC/DC
59
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TELE Haase Steuergeraete Ges.m.b.H.Vorarlberger Allee 38Vienna, 1230Austria
Your contact:
UK Office
TELE Control Ltd.Park House
200 Drake StreetRochdale, OL16 1PJUnited Kingdom
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TELE Controls Inc.1101 Wilson Blvd
6th FloorArlington, VA 22209United States
We’re here to help. Please contact us directly or get in touch with your personal TELE reseller.
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